[熱電関連情報]

熱電関連情報

目次 [先頭][Top]

【熱電関連セミナー、研究会等情報】

【熱電関連国内・国際会議、ワークショップ等情報】

【熱電関連トピック情報】

【機構(NIMS)のプレスリリース情報】

【熱電関連論文情報】

【熱電関連論文献・重要論文情報】

【外部リンク】

【未来社会創造事業】

【（臨時）テストページ】

• 【熱電関連セミナー、研究会等情報】[先頭][先足]
• 量子物理学・ナノサイエンス第３６９回セミナー:「スピンカロリトロニクス：発展の歴史から将来展望まで」、講師：内田健一氏（物質・材料研究機構）、８月１６日（２０２３）午後２時より、開催地：大岡山キャンパス 本館2階 290 物理学系輪講室（東京）、詳細は案内ページ参照[終了]。
• 日本熱電学会講習会：初心者向け講習会、５月１０日（２０２４）、講演者：宮崎康次氏（九州大学）、開催地：エッサム神田ホール１号館 ７階中会議室１（７０１）（千代田区、東京）＋オンライン（ハイブリッド開催）、詳細は案内ページ参照。
• 第２９回研究会「新進気鋭の若手研究者が語る熱電研究の将来」、５月３１日（２０２４）、開催地：エッサム神田ホール １号館 ３階大会議室（３０１）（千代田区、東京）、詳細は案内ページ参照。
• オンデマンドセミナー（アクセス不能）：「はじめての熱電変換」、詳細は案内ページ参照。
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• 【熱電関連国内・国際会議、シンポジウム、ワークショップ等情報】
• 物性研究所短期研究会「熱電材料の高性能化はどこまで行くか」(ISSP Regular Workshop: How high can we raise thermoelectric performance?)、１２月５日、６日（２０２３）、開催地：東京大学物性研究所 大講義室（柏、千葉）、詳細は案内ページ参照[終了]。
• MRM2023/IUMRS-ICA2023、Symposium B-1:"Thermoelectric Materials for Sustainable Development"、１２月１１日〜１２月１６日（２０２３）、開催地：Kyoto International Conference Center（京都）、詳細は案内ページ参照[終了]。
• ENEX2024、１月３１日〜２月２日（２０２４）、開催地：東京ビッグサイト東7・8ホール（江東区、東京）、詳細は案内ページ参照[終了]。
• 2024 TMS Annual Meeting & Exhibition: Alloys and Compounds for Thermoelectric and Solar Cell Applications XII、３月３日〜３月７日（２０２４）、開催地：Hyatt Regency Orlando, Florida（米国）、詳細は案内ページ参照[終了]。
• 2024 MRS Spring Meeting, EN-08 (Energy Generation and Conversion)、４月２２日〜４月２６日（２０２４）(May 7-9, 2024: Virtual)、開催地：シアトル（米国）、詳細は案内ページ参照。
• 第61回日本伝熱シンポジウム、５月２９日〜３１日（２０２４）、開催地：神戸国際会議場（神戸、兵庫）、詳細は案内ページ参照。
• The Third Asian Conference on Thermal Sciences (ACTS 2024)、６月２３日〜２７日（２０２４）、開催地：Shanghai Fuyue Hotel（上海、中国）、詳細は案内ページ参照。
• ICT/ECT2024、６月３０日〜７月４日（２０２４）、開催地：Krakow（ポーランド）、詳細は案内ページ参照。
• 第２１回日本熱電学会学術講演会、９月２４日〜９月２６日（２０２４）、開催地：産業技術総合研究所つくば中央事業所（つくば、茨城）、詳細は案内ページ参照。
• ICT/ACT2025、６月１５日〜１９日（２０２５）、開催地：仙台国際センター（宮城、日本）、詳細は案内ページ参照。
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• 【熱電関連トピック情報】[先頭][NEDOのニュースリリース一覧][リンク切れのページへのリンクは外しています]
• 「熱電材料の探索における洗練されたAIの使用」（英語版のみ）（東北大学、材料科学高等研究所のプレスリリースより）←詳細は、東北大学AIMRのプレスリリース情報参照。
• 「熱電効果により超伝導の前兆現象の全容を解明 超伝導体の示す熱電効果の標準データを提示」（東京工業大学のプレスリリース）←詳細は、東京工業大学のプレスリリース情報参照。
• 「最高の熱起電力を持つ分子熱電変換デバイスを開発 ~光量子アルゴリズムにより電流が誘起する分子振動も予測~」←詳細は、科学技術振興機構(JST)のプレスリリース情報参照。
• 「メタマテリアルは均一な熱輻射環境における熱電発電を最も高効率に駆動できる吸収体であることを発見」（東京農工大学のプレスリリース）←詳細は、東京農工大学のプレスリリース情報参照。
• 「熱流と垂直方向に発電する新しい熱電材料の開発 - 電極界面が劣化しないメンテナンスフリーな新規熱電モジュールへ期待 - 」（産総研のプレスリリース）←詳細は、産総研のプレスリリース情報参照。
• 「二次元電子の伝導通路を増やして熱電材料の発電能力を大幅に向上 - 身の周りの温度差から発電する材料の実現へ - 」（大阪大学のプレスリリース）←詳細は、大阪大学のプレスリリース情報参照。
• 「い横型熱電変換性能を持つ次元層状磁の発 - 層状物質の特異なスピンの流れを使って、室温無磁場下で効率的な熱電変換を実証 - 」、←詳細は九州大学のプレスリリース情報参照。
• 「トポロジカル磁性体の磁気熱電効果で起電力生成に成功　- ゼロ磁場下でも熱電変換動作が可能で創エネや省エネに期待 - 」（東北大学のプレスリリース）←詳細は、東北大学金属材料研究所のプレスリリース情報参照。
• 「過去最高の変換効率を示す毒性元素を含まない熱電材料 廃熱を利用した大規模な発電技術の実現へ前進」（東京工業大学のプレスリリース）←詳細は、東京工業大学のプレスリリース情報参照。
• 「イオンの流れで温冷自在の新技術 〜モバイル端末の温調シートモジュールや発電技術への応用展開に期待〜 」（大阪大学産業科学研究所のプレスリリース）←詳細は、大阪大学産業科学研究所のプレスリリース情報参照。
• 「アモルファス物質の超低熱伝導率の機構を新たな方法で解明 〜熱電変換材料など低い熱伝導率が求められる機能性材料の開発に活路〜 」（東海大学のプレスリリース）←詳細は、東海大学のプレスリリース情報参照。
• 「高精度な熱電デバイスの変換効率評価装置を開発 - 国際標準化による熱電発電の新市場創出や拡大に貢献 - 」（産総研のプレスリリース）←詳細は、産総研のプレスリリース情報参照。
• 「ポリマーが丸まるエネルギーを電気に変換することに初めて成功 ――PNIPAMの相転移エネルギーを熱化学電池のゼーベック係数に変換――」（東京大学のプレスリリース）←詳細は、東京大学のプレスリリース情報参照。
• 「単結晶薄膜で発電効率を増大する新技術 廃熱による自立的な発電でIoTセンサ社会へ」（大阪大学の研究専用ポータルサイトの新着記事）←詳細は、大阪大学の研究専用ポータルサイトの新着記事情報参照。
• 「従来の常識を覆す発想で酸化物の熱電変換効率を向上 水素を活用した環境調和型熱電材料の開発へ」（東京工業大学のプレスリリース）←詳細は、東京工業大学のプレスリリース情報参照。
• 「【共同発表】ハイエントロピー超伝導体の乱れと原子振動、電子状態を解明 〜高圧下で発現する特異な超伝導状態の起源に迫る〜（発表主体：東京都立大学） 」（東大生産研のプレスリリースより）←詳細は、東大生産研のプレスリリース情報参照。
• 「有力な熱電材料マグネシウムスズ化合物のp型性能で記録更新 格子欠陥の制御により高性能のn型とp型の単結晶がそろい実用的な発電デバイス実現に期待」（東北大学のプレスリリース）←詳細は、東北大学のプレスリリース情報参照。
• 「簡単な方法で超長期間N型特性と低熱伝導率を示すカーボンナノチューブ膜を開発 〜熱電発電などN型とP型カーボンナノチューブを用いる半導体デバイスの長寿命化・普及に活路〜 」（東海大学のプレスリリース）←詳細は、東海大学のプレスリリース情報参照。
• 「熱電変換性能を左右する分子-電極界面構造を解明 優れた有機熱電変換材料開発へ弾み」（東京工業大学のプレスリリース）←詳細は、東京工業大学のプレスリリース情報参照。
• 「熱化学電池の蘊奥を開く 熱を電気に変える液体技術の予測設計に道」（東京工業大学のプレスリリース）←詳細は、東京工業大学のプレスリリース情報参照。
• 「100 ℃以下の温度でリチウムイオン二次電池を充電できる有機熱電素子を開発 - 手のひらに収まるわずか5 gの薄膜積層素子 - 」（産総研のプレスリリース）←詳細は、産総研のプレスリリース情報参照。
• 「非平衡フォノン環境が生み出すスピンダイナミクス - 単一スピン熱機関デバイスの実現に向けて - 」（理研のプレスリリース）←詳細は、理研のプレスリリース情報参照。
• 「カゴメ格子に由来する磁気熱電効果の増大機構の発見 - 高機能磁気熱電変換材料の新たな物質設計指針へ - 」（東京大学のプレスリリース）←詳細は、東京大学のプレスリリース情報参照。
• 「高温・空気中で安定した性能を示す実用的な熱電変換材料を発見 - 再現性良く実用レベルの高性能を示す酸化物熱電材料 - 」（産総研のプレスリリース）←詳細は、産総研のプレスリリース情報参照。
• 「世界初の商用「砂電池」がフィンランドでエネルギー貯蔵を開始」（GIGAZINEの記事）←詳細は、GIGAZINEの記事参照。
• 「空気中高温下でも安定動作する熱電発電素子用カーボンナノチューブのn型ドーピング物質を発見 〜有機超塩基の構造と機能〜」（神戸大学のプレスリリース）←詳細は、神戸大学のプレスリリース情報参照。
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• 「セレン化スズ多結晶体の熱電変換性能を30倍に向上 高い電気伝導度と低い熱伝導率を両立」（東京工業大学のプレスリリース）←詳細は、東京工業大学のプレスリリース情報参照。
• 「熱関連材料の熱物性を容易に検索可能なデータベースシステムを開発・公開 - 脱炭素化に向けた熱マネジメント技術の開発を加速 - 」（産総研のプレスリリース）←詳細は、産総研のプレスリリース情報参照。
• 「カゴメ格子に由来する磁気熱電効果の増大機構の発見 - 高機能磁気熱電変換材料の新たな物質設計指針へ - 」（物性研のプレスリリース）←詳細は、物性研のプレスリリース情報参照。
• 「熱の局所的かつ過渡的な逆流現象の原理を初めて解明 - 「熱インダクタンス現象」の実証に成功、高度な熱制御の応用に期待 - 」（産総研のプレスリリース）←詳細は、産総研のプレスリリース情報参照。
• 「金属と絶縁体を重ねて熱電変換電圧を10倍に増大 熱電変換材料の性能向上に向けた新たな指針」（東京工業大学のプレスリリース）←詳細は、東京工業大学のプレスリリース情報参照。
• 「新しい半導体物質「硫化ホウ素シート」の生成に成功」（筑波大学のプレスリリース） ←詳細は、筑波大学のプレスリリース情報参照。
• 「酸化物に圧力を加えて、熱電変換における電気伝導率と熱起電力のトレードオフ問題を解決 熱電変換出力を2桁増大」（東京工業大学のプレスリリース）←詳細は、東京工業大学のプレスリリース情報参照。
• 「積 1ccで 100 Aの電流を生み出す「熱電半金属」を発見！ 〜コンパクトで強力な電流源開発の可能性〜」（名古屋大学のプレスリリース）←詳細は、名古屋大学のプレスリリース（PDF形式ページ）情報参照。
• 「放射光でついに見えた磁気オクタポール 〜熱を電気に変える新たな担い手〜」（高エネルギー加速器研究機構のプレスリリース）←詳細は、高エネルギー加速器研究機構のプレスリリース情報参照。
• 「【研究発表】ナノチューブのファイバーで温度差から非常に大きな電力を取り出すことを実現」（東京都立大学のプレスリリース）←詳細は、東京都立大学のプレスリリース情報参照。
• 「室温廃熱を高効率で電気に変換！電子構造の精密制御により熱電性能を2倍増大 - 近未来のIoT社会に貢献する環境発電技術への応用に期待 - 」（大阪府立大学のプレスリリース）←詳細は、大阪府立大学のプレスリリース情報参照。
• 「過去最高の熱電変換性能指数を示す環境調和型熱電材料の実現 - 独自の材料開発技術から熱エネルギーの有効利用に貢献 - 」（宮崎大学のプレスリリース）←詳細は、宮崎大学のプレスリリース情報参照。
• 「世界初の核の自転を利用した熱発電 - 熱エネルギー利用技術・スピントロニクスに新たな可能性 - 」（岩手大学のプレスリリース）←詳細は、岩手大学のプレスリリース情報参照。
• 「高性能ウェアラブル体温発電素子の低コスト製造 - 断熱性メラミンスポンジの充填によって高出力と柔軟性を実現 - 」（芝浦工業大学のプレスリリース）←詳細は、芝浦工業大学のプレスリリース情報参照。
• 「機械学習により構成元素の情報のみから熱伝導率を高精度に予測可能な数理モデルの開発 - 熱を制御した機能性材料の開発の加速に期待 - 」（名古屋工業大学のプレスリリース）←詳細は、名古屋工業大学のプレスリリース情報参照。
• 「化学的圧力で単結晶の欠陥を制御して最低熱伝導率を達成 中性子ホログラフィーでマグネシウム錫化合物にドープしたホウ素の役割を解明」（東北大学のプレスリリース）←詳細は、東北大学のプレスリリース情報参照。
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• 「均一温度環境における熱電発電を可能にするメタマテリアル熱電変換素子を提案」（東京農工大学のプレスリリース）←詳細は、東京農工大学のプレスリリース情報参照。
• 「硬さが大きく異なる材料の界面では結合が弱いほうが熱はよく伝わる 〜 高熱伝導複合材の革新と放熱技術への活用に期待 〜 」（東大工学系研究科のプレスリリース）←詳細は、東大工学系研究科のプレスリリース情報参照。
• 「【研究発表】材料ひとつで熱電発電が可能に。 〜 新しい熱電モジュール開発の鍵 〜 」（東京都立大学のプレスリリース）←詳細は、東京都立大学のプレスリリース情報参照。
• 「熱電変換によるクリーンなエネルギーハーベスティングの実現に期待 溶融合成したZn₄Sb₃熱電変換材料のクラック生成・消滅機構を解明」（東北大学のプレスリリース）←詳細は、東北大学のプレスリリース情報参照。
• 「ヤマハ車載用熱電発電モジュール『YGPX024』のサンプル提供を開始」←詳細は、ヤマハのニュースリリース情報参照。
• 「常識を覆す！多結晶よりも熱が伝わりにくい単結晶を発見 〜 低熱伝導材料を設計するための指針 〜 」（北海道大学のプレスリリース）←詳細は、北海道大学のプレスリリース情報参照。
• 「身近な生活廃熱の発電利用に向けた室温SiGe熱電材料 〜宇宙船で使われる材料を身近に：独自方法論により熱電変換出力３倍増大を実証〜」←詳細は、科学技術振興機構(JST)のプレスリリース情報参照。
• 「熱電変換材料: 多孔構造による熱電変換効率の向上 〜廃熱回収に最適な性能を兼ね備えた、ハニカム構造の熱電変換材料が実現された〜 」（東北大学、材料科学高等研究所のリサーチハイライトより）←詳細は、東北大学AIMRのリサーチハイライト情報参照。
• 「“生きる”とは？私たち生物の細胞が熱を伝えるメカニズムの解明へ。ナノ量子センサーを新開発し、細胞内の熱伝導率を初計測」（大阪大学 蛋白質研究所のプレスリリース）←詳細は、大阪大学蛋白質研究所のプレスリリース情報参照。
• 「熱を伝えにくい単結晶で電気を流しやすくすることに成功 マグネシウム錫化合物単結晶の熱電変換性能が５０倍に」（東北大学のプレスリリース）←詳細は、東北大学のプレスリリース情報参照。
• 「排熱を電気に変える高性能熱電素子実現へ：熱起電力の極性を多段階制御する技術を開発」（東京工業大学のプレスリリース）←詳細は、東京工業大学のプレスリリース情報参照。
• 「水に浮くほど軽い熱電変換材料を実現 - ミクロな蜂の巣構造のガラスを半導体に変換 - 」（山形大学のプレスリリース）←詳細は、山形大学のプレスリリース情報参照。
• 「強磁性体薄膜の熱電能の向上に成功 〜 電子構造と横熱電能の対応関係を解明 〜 」（広島大学のプレスリリース）←詳細は、広島大学のプレスリリース情報参照。
• 「放射光を利用することにより熱電変換性能に関係する歪の観測に成功 - 歪を利用した新たな熱電変換材料の開発に期待 - 」（名古屋工業大学のプレスリリース）←詳細は、名古屋工業大学のプレスリリース情報参照。
• 「体温を用いた新たなマイクロ熱電発電モジュール技術の開発に成功：ウェアラブルエレクトロニクス実現に貢献する新たな電源技術」（東京工業大学のプレスリリース）←詳細は、東京工業大学のプレスリリース情報参照。
• 「金属酸化物における過去最高の室温熱電変換性能指数 - 安定で実用的な熱電変換材料の実現に大きな期待 - 」（北海道大学のプレスリリース）←詳細は、北海道大学のプレスリリース情報参照。
• 「世界最小クラスの接触抵抗を示す電子輸送性有機半導体を開発」（産総研のプレスリリース）←詳細は、産総研のプレスリリース情報参照。
• 「熱電性能の起源となる構造と電子状態の変化を解明 〜環境にやさしい効率的な熱電材料開発の基礎となるメカニズム〜」、←詳細は東京理科大学のプレスリリース情報参照。
• 「室温付近での高効率な熱電発電を実現」、←詳細は九州大学のプレスリリース情報参照。
• 「光で窒化シリコン薄膜の熱伝導率を倍増 〜半導体デバイスの高性能化につながる新たな放熱機構〜」←詳細は、科学技術振興機構(JST)のプレスリリース情報参照。
• 「圧力で熱電変換材料の大振幅原子振動をコントロール 〜熱電変換の高効率化に道筋 〜」←詳細は、筑波大学のプレスリリース情報参照（←PDF形式ページ）。
• 「高性能な高分子熱電変換材料を開発 - 新しいn型高分子半導体と分子配向制御により熱電特性が向上 - 」←詳細は、理研のプレスリリース情報参照。
• 「最適化したナノ構造により結晶性材料の熱伝導率を最小に 〜ＭＩを駆使して熱機能材料の開発へ応用期待〜 」←詳細は、科学技術振興機構(JST)のプレスリリース情報参照。
• 「セレン化銀を使用した室温付近で高性能を示す熱電変換材料を開発 - ナノメートル領域での結晶構造の制御により熱電性能指数ZT=1.0を実現 - 」（産総研のプレスリリース）←詳細は、産総研のプレスリリース情報参照。
• 「世界初！大気・熱・バイアスストレス耐性を有する高信頼性かつ高移動度電子輸送特性有機半導体材料の開発に成功」（産総研のプレスリリース）←詳細は、産総研のプレスリリース情報参照。
• [先頭]
• 「室温・ゼロ磁場で世界最高の磁気熱電効果を実現する鉄系材料」（物性研のプレスリリース）←詳細は、物性研のプレスリリース情報参照。
• 「コバルトと酸化マグネシウムからなるグラニュラー材料で熱電変換効率が変化 熱電変換デバイスの高効率化実現へ道筋」（東北大学のプレスリリース）←詳細は、東北大学のプレスリリース情報参照。
• 「高効率フレキシブル熱電変換デバイスの小型軽量化に成功」（大阪大学産業科学研究所のプレスリリース）←詳細は、大阪大学産業科学研究所のプレスリリース情報参照。
• 「温度差で発電する柔らかい電池の開発へ前進！ 〜IoT社会を支えるウェアラブルな電源 〜」（北海道大学のプレスリリース）←詳細は、北海道大学のプレスリリース情報参照（←PDF形式ページ）。
• 「熱機能材料の熱伝導率を手軽で高精度に計算するソフトウェアを開発 - ミクロ領域の熱物性を把握、高性能な熱機能材料の研究開発の促進に期待 - 」（NEDOのプレスリリース）←詳細は、NEDOのプレスリリース情報参照。
• 「小型で軽量な自然冷却型有機熱電モジュールを開発 - １００℃〜１２０℃の低温熱源による電力での無線通信を世界で初めて実証 - 」（NEDOのプレスリリース）←詳細は、NEDOのプレスリリース情報参照。
• 「高い耐久性と信頼性を持つ熱電発電試験用標準参照モジュールを開発 - 計測技術の高信頼化を推進し、発電性能試験法の国際標準化活動に活用 -」（産総研のプレスリリース）←詳細は、産総研のプレスリリース情報参照。
• 「導電性高分子に熱起電力が生成する機構を解明 - 高性能熱電変換素子の実現に向けた大きな一歩 -」（東大のプレスリリース）←詳細は、東大のプレスリリース情報参照。
• 「世の中で広く用いられる強制対流冷却において「物体を冷やしながら発電する」新技術を創出：熱電気化学発電の強制対流冷却への統合とコンセプト実証」（東京工業大学のプレスリリース）←詳細は、東京工業大学のプレスリリース情報参照。
• 「New Material Breaks World Record Turning Heat into Electricity」（Technische Universität Wienのプレスリリース）←詳細は、Technische Universität Wienのプレスリリース情報参照。
• 「車の廃熱を電気に変換可能な新素材を開発」（東京都市大学のプレスリリース）←詳細は、東京都市大学のプレスリリース情報参照。
• 「NECと東北大学、「開発者が解釈可能なマテリアルズ ・インフォマティクス」で特性向上の主要因を抽出する手法を開発」（東北大学のプレスリリース）←詳細は、東北大学のプレスリリース情報参照。
• 「地熱発電と温泉との共生を目指した温泉モニタリングシステムの実証試験を開始 - 別府市の温泉地域で地熱資源の連続監視・適正管理を図る - 」（NEDOのプレスリリース）←詳細は、NEDOのプレスリリース情報参照。
• 「基板を曲げたり引っ張ったりするだけで 素子内の熱流方向を変えることに成功」（大阪大学産業科学研究所のプレスリリース）←詳細は、大阪大学産業科学研究所のプレスリリース情報参照。
• 「MARVEL researchers introduce a novel heat transport theory in quest for more efficient thermoelectrics」（NCCR MARVELのScientific Highlights情報）←詳細は、NCCR MARVELのScientific Highlights情報参照。
• 「プラズモン熱と熱電変換を組み合わせた新しい光検出器を開発」（東京農工大学のプレスリリース）←詳細は、東京農工大学のプレスリリース情報参照。
• 「低温用の熱電素子に使用できる高性能材料の発見 〜 低温度域における局所冷却・冷熱発電の実用に期待 〜」（名古屋大学のプレスリリース）←詳細は、名古屋大学のプレスリリース（PDF形式ページ）情報参照。
• 「地熱や工場廃熱などの熱源に置くだけ埋めるだけ！ 熱エネルギーで直接発電する“増感型熱利用発電”を開発」（東京工業大学のプレスリリース）←詳細は、東京工業大学のプレスリリース情報参照。
• 「アルミ系近似結晶で半導体を創製 - 固体物理学の基本的問題の解決と高性能熱電材料開発への突破口 -」（産総研のプレスリリース）←詳細は、産総研のプレスリリース情報参照。
• 「室温で2倍以上に！圧力による電子バレーの制御により熱電性能の向上に成功 - セレン化スズ系熱電材料の高性能化に期待 -」（物性研のプレスリリース）←詳細は、物性研のプレスリリース情報参照。
• 「世界初、熱電変換材料の厚さ方向の変換性能を正確に計測する手法を開発 - 計測器メーカーが同手法を採用した評価装置を製品化 - 」（NEDOのプレスリリース）←詳細は、NEDOのプレスリリース情報参照。
• [先頭]
• 「2次元物質で高効率の熱電変換を実現 - 室温で優れた熱電性能を示すセレン化鉄のナノ極薄膜 - 」（東北大学金属材料研究所のプレスリリース）←詳細は、東北大学金属材料研究所のプレスリリース情報参照。
• 「熱流センサーを用いた相変化中の物質の熱流出入量の計測技術を開発 - 低温物流における配送品の品質向上への貢献に期待 - 」（NEDOのプレスリリース）←詳細は、NEDOのプレスリリース情報参照。
• 「熱を伝える紙を開発！」（阪大産業科学研究所のプレスリリース、熱電ではないが”熱”関連なので掲載）、詳細は、阪大産業科学研究所のプレスリリース情報参照。
• 「超伝導体を利用した新たな環境発電機能を実証」（東京工業大学のプレスリリース）、詳細は、東京工業大学のプレスリリース情報参照。
• 「高効率で熱を電気に変換する新物質（YbSiGe） - 微小環境発電や自動車の燃費向上への応用に期待 - 」（阪大工学部のプレスリリース）、詳細は、阪大工学部のプレスリリース情報参照。
• 「スピンによる熱流が磁場で曲がるメカニズムを解明」（物性研のプレスリリースより）、詳細は、物性研のプレスリリース情報参照。
• 「銅スズ亜鉛硫化物系ナノ粒子から環境に優しいナノコンポジット熱電材料を創製」（北陸先端科学技術大学院大学のプレスリリースより）、詳細は、北陸先端科学技術大学院大学のプレスリリース情報参照。
• 「量子効果で10倍以上の磁気熱電効果を室温で実現 〜新しい熱電変換、環境発電への応用へ期待〜 」（物性研のプレスリリースより）←詳細は、物性研のプレスリリース情報参照。
• 「電子をギュッと閉じ込めて熱電材料の性能を倍増 - 熱電材料を高性能化する理論を実証 - 」（京大のプレスリリース）、詳細は京大のプレスリリース情報参照。
• 「テルル化鉛熱電変換材料の新形成法を確立、約2倍の熱電変換性能を実現 - 未利用熱エネルギーの電力活用による省エネ、CO2排出削減に期待 - 」（NEDOのプレスリリース）←詳細は、NEDOのプレスリリース情報参照。
• 「カスケード型熱電変換モジュールで効率12 ％を達成 - ナノ構造の形成によりさまざまなモジュールの構成で高効率を達成 - 」（産総研のプレスリリースより）←詳細は、産総研のプレスリリース情報参照。
• 「NECと東北大AIMR、AIによる新材料開発に成功 〜スピン流熱電変換素子の性能を約1年で100倍向上〜 」（東北大学、材料科学高等研究所のプレスリリースより）←詳細は、東北大学AIMRのプレスリリース情報参照。
• 「トポロジカル材料の熱電変換性能が従来比3倍に向上する可能性 - MIT」（マイナビ・ニュース記事）←詳細は、マイナビ・ニュース記事情報参照。
• 「高効率な熱電変換を可能にする新しいタイプの大振幅原子振動 - 新規熱電材料の新しい設計指針を提案 - 」（産総研のプレスリリースより）←詳細は、産総研のプレスリリース情報参照。
• 「磁気構造のトポロジーを用いた熱から電気への高効率変換技術 -固体中の磁気モノポールのゆらぎが生み出す巨大熱電効果- 」（物性研のプレスリリースより）←詳細は、物性研のプレスリリース情報参照。
• 「高出力フレキシブル熱電モジュールの開発 - 湾曲した熱源に対し温度差70 ℃で87 mW/cm2の発電を実証 - 」（産総研のプレスリリースより）←詳細は、産総研のプレスリリース情報参照。
• [先頭]
• Powerwatch（MATRIX Industries社）
• 「青色ＬＥＤ材料を活かして、熱を電気に変換 - 高性能な熱電材料のための新しい材料設計指針 - 」（産総研のプレスリリースより）←詳細は、産総研のプレスリリース情報参照。
• 「熱電材料の「ゼーベック係数」の簡便な測定手法を開発 - 測定時間を10分の1に短縮し、測定精度を5倍向上 - 」（産総研のプレスリリースより）←詳細は、産総研のプレスリリース情報参照。
• 「固体中で熱を特定の方向に流し、一点に集めることに成功 〜熱制御に新しい選択肢〜」（東大生産研のプレスリリースより）←詳細は、東大生産研のプレスリリース情報参照。
• 「世界初！放熱から電気への変換効率を100倍以上にする理論を実証！」（阪大産業科学研究所のプレスリリースより）←詳細は、阪大産業科学研究所のプレスリリース情報参照。
• 「鉄と窒素からなる磁性材料 熱を加える方向によって熱電変換効率が変化 - 特殊な結晶構造γ'型Fe₄Nによる熱電変換デバイスの高効率化実現へ道筋」（東北大学金属材料研究所のプレスリリースより）←詳細は、東北大学金属材料研究所のプレスリリース情報参照。
• 「磁性体を用いて熱から発電を可能にする新技術反強磁性体での巨大な異常ネルンスト効果の発見」（東大物性研のプレスリリースより）←詳細は、東大物性研のプレスリリース情報参照。
• 「熱の波動性を用いた熱伝導制御に成功〜フォノンエンジニアリングによる高度な熱伝導制御へ〜」（東大生産研のプレスリリースより）←詳細は、東大生産研のプレスリリース情報参照。
• 「金原子接点を用い両極性の電池創生に成功 -排熱を電気に変える単一材料の高性能熱電素子実現へ-」（東京工業大学のプレスリリース[ニュース記事]より）←詳細は、東京工業大学のプレスリリース（ニュース記事）情報参照。
• 【機構(NIMS)のプレスリリース情報】 [先頭]
• 「ありふれた軟磁性合金が3分の熱処理で次世代熱電変換材料に変身 〜磁性体を用いた横型熱電変換のための材料開発に新指針〜」、詳細はNIMSのプレスリリース情報参照。
• 「熱電×磁性の複合構造で横型熱電効果を飛躍的に向上 〜簡便な積層構造で実現、新規熱電デバイスへの応用に期待〜」、詳細はNIMSのプレスリリース情報参照。
• 「熱の伝わりをナノスケールで直接視る 〜熱拡散を定量計測できる新しい電子顕微鏡法を開発〜」、詳細はNIMSのプレスリリース情報参照。
• 「新材料「熱電永久磁石」が熱マネジメント技術の新たな可能性を切り拓く - 磁気によって横型熱電変換を高性能化 - 」、詳細はNIMSのプレスリリース情報参照。
• 「磁性材料の熱電変換現象を磁化の向きで操る -「異方性磁気トムソン効果」を初めて直接観測 - 」、詳細はNIMSのプレスリリース情報参照。
• 「FAST材を適用した熱電発電モジュールで小電力路車間通信に成功 - 照明器具などの排熱を利用した自立電源の実用化と普及に見通し - 」、詳細はNIMSのプレスリリース情報参照。
• 「IoT機器駆動に向けた微細化熱電素子を開発 〜半導体微細加工でIoT機器駆動に必要な0.5 Vの壁を克服〜」、詳細はNIMSのプレスリリース情報参照。
• 「熱電変換物質設計の新戦略 〜物質の特徴を決める電子状態パラメータのデータベースの構築と利活用〜」、詳細はNIMSのプレスリリース情報参照。
• 「最先端材料科学研究: スピンゼーベック効果を用いた横型熱電発電素子 - 高温側：太陽光で受熱、低温側：放射冷却で放熱、昼夜を問わず発電可能 - 」、詳細は共同通信PRワイヤーのプレスリリース情報参照（STAM誌プレスリリース[NIMS]）。
• 「半世紀以上熱電変換の最高性能を誇るBi₂Te₃系に匹敵する新規材料を開発 〜希少元素を大幅削減して高性能化とモジュール化に成功　熱電変換普及への貢献に期待〜」、詳細はNIMSのプレスリリース情報参照。
• 「新機構の“横型”熱電効果を実証 〜熱電材料と磁性材料の組み合わせで巨大な熱起電力を生成、熱電技術の応用展開に新たな道〜」、詳細はNIMSのプレスリリース情報参照。
• 「放射冷却を利用した一日中発電し続ける熱電発電」、詳細はNIMS-MANAのResearch Highlights(Vol. 62)参照。
• 「「磁気トムソン効果」の直接観測に世界で初めて成功 〜熱・電気・磁気変換現象に関する新たな物性・機能開拓へ道〜」詳細はNIMSのプレスリリース情報参照。
• 「光を当てるだけで電流に伴って生じる熱流を自在に制御することに成功 〜磁気の源“スピン”を利用した新しい熱エネルギー制御機能〜」詳細はNIMSのプレスリリース情報参照。
• 「世界初、汎用元素のみで構成する熱電発電モジュールの開発に成功 - IoT機器と組み合わせた自立電源一体型システム開発に向けて大きく前進 -」詳細はNIMSのプレスリリース情報参照。
• 「機械学習の「記憶」を活用し、高分子の熱伝導性の大幅な向上に成功 〜少ないデータでも高精度な予測が可能に 高分子での材料インフォマティクス加速に期待〜」詳細はNIMSのプレスリリース情報参照。
• 「機械学習を用いて熱電材料の大幅な出力向上に成功 〜従来の実験では探索範囲外の組成で実現 汎用元素による熱電材料の実用化加速に期待〜」詳細はNIMSのプレスリリース情報参照。
• 「強磁性体における熱電性能の顕著な増大を発見 〜室温近傍の熱電性能向上のための新指針〜」詳細はNIMSのプレスリリース情報参照。
• 「New Material That is Both a Thermoelectric and a Superconductor Identified by High-Throughput Materials Discovery」、詳細はNIMS-MANAのResearch Highlights(Vol. 16)参照。
• 「機械学習により熱電変換性能を最大にするナノ構造の設計を実現 〜環境発電への貢献に期待〜」（NIMSのプレスリリース）、詳細はNIMSのプレスリリース情報参照。
• 「電流を曲げるだけで熱制御可能な「異方性磁気ペルチェ効果」を観測 〜単一の磁性体のみで加熱・冷却できる新機能を実証〜」（物質・材料研究機構のプレスリリースより）←詳細は、物質・材料研究機構のプレスリリース情報参照。
• 「機械学習により熱流を制御するナノ構造物質の最適設計に成功」（NIMSのプレスリリースより）←詳細はNIMSのプレスリリース情報参照。
• 【論文募集等情報】
• Materials Transactions熱電特集（第10回）論文募集（PDF形式ページ）
• Materials Transactions熱電特集（第11回）論文募集（PDF形式ページ）

• 【熱電関連論文情報】[先頭][先足]

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• Juan Herrera Mateos, Leandro Tosi, Alessandro Braggio, Fabio Taddei, Liliana Arrachea, "A twist for nonlocal thermoelectricity in quantum wires as a signature of Bogoliubov-Fermi points", arXiv:2404.07734.

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• Yoshimichi Teratani, Kazuhiko Tsutsumi, Kaiji Motoyama, Rui Sakano, Akira Oguri, "Thermoelectric transport and current noise through a multilevel Anderson impurity: Three-body Fermi-liquid corrections in quantum dots and magnetic alloys", arXiv:2404.05947.
• Yoshikazu Suzumura, Takao Tsumuraya, Masao Ogata, "Seebeck Effect of Dirac Electrons in Organic Conductors under Hydrostatic Pressure Using a Tight-Binding Model Derived from First Principles", J. Phys. Soc. Jpn. 93, 054704 (2024) [arXiv:2404.05914].

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• Rinsuke Yamada, Takuya Nomoto, Atsushi Miyake, Toshihiro Terakawa, Akiko Kikkawa, Ryotaro Arita, Masashi Tokunaga, Yasujiro Taguchi, Yoshinori Tokura, Max Hirschberger, "Nernst effect of high-mobility Weyl electrons in NdAlSi enhanced by a Fermi surface nesting instability", arXiv:2404.03762.

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• Asad Ur Rehman Khan, Muhammad Ramzan, Muhammad Faisal Iqbal, Muhammad Hafeez, Mohammed M. Fadhali, Hamoud H. Somaily, Muhammad Javid, Muhammad Waqas Mukhtar, Muhammad Farooq Saleem, "Effect of the Source toSubstrate Distance on Structural, Optoelectronic, and Thermoelectric Properties of Zinc Sulfide Thin Films", arXiv:2404.02404.
• Laura Caputo, Viet-Hung Nguyen, Jean-Christophe Charlier, "Thermoelectric Properties of Graphene through BN-ring Doping: A Theoretical Investigation", arXiv:2404.02307.
• Ying Fang, Hezhu Shao, "Wenzhou TE: a first-principles calculated thermoelectric materials database", arXiv:2404.02571.

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• Sachiraj Mishra, Colin Benjamin, "Reaching Curzon-Ahlborn limit in linear response and Whitney limit in nonlinear response in edge mode quantum thermoelectrics and refrigeration", arXiv:2404.02118.
• Kenjiro Okawa, Yasutaka. Amagai, Norihiko Sakamoto, Nobu-Hisa Kaneko, "Accurate determination of thermoelectric figure of merit using ac Harman method with a four-probe configuration", arXiv:2404.01565.
• Susmita Chowdhury, Niraj Kumar Singh, Sanath Kumar Honnali, Grzegorz Greczynski, Per Eklund, Arnaud le Febvrier, Martin Magnuson, "Electronic structure and thermoelectric properties of epitaxial Sc_1-xV_xN_y thin films grown on MgO(001)", arXiv:2404.01417.
• Hirofumi Kakemoto, "Colossal Seebeck coefficient of thermoelectric material calculated by space charge effect, and phonon drag background", arXiv:2404.01311.
• Y. Kawamoto, T. Kikkawa, M. Kawamata, Y. Umemoto, A. G. Manning, K. C. Rule, K. Ikeuchi, K. Kamazawa, M. Fujita, E. Saitoh, K. Kakurai, Y. Nambu, "Understanding spin currents from magnon dispersion and polarization: Spin-Seebeck effect and neutron scattering study on Tb₃Fe₅O₁₂", Appl. Phys. Lett. 124, 132406 (2024)[arXiv:2404.01603].

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• Asato Seshita, Aichi Yamashita, Takeshi Fujita, Takayoshi Katase, Akira Miura, Yuki Nakahira, Chikako Moriyoshi, Yoshihiro Kuroiwa, Yoshikazu Mizuguchi, "Stabilization and high thermoelectric performance of high-entropy-type cubic AgBi(S, Se, Te)₂", arXiv:2404.00984.

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• F. Antola, A. Braggio, G. De Simoni, F. Giazotto, "Tunable Thermoelectric Superconducting Heat Pipe and Diode", arXiv:2403.20119.

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• Davide Soranzio, et al., "Impact of a MoS₂ monolayer on the nanoscale thermoelastic response of silicon heterostructures", arXiv:2403.19255.

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• Vivek Pandey, Sudhir K. Pandey, "Observation of nodal-arcs, effect of axial strain on the nodal-lines & Weyl nodes and low-temperature finite value of Seebeck coefficient in TaAs class of Weyl semimetals", arXiv:2403.18169.

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• Shamim Sk, Naoki Sato, Takao Mori, "Thermoelectric properties of marcasite-type compounds MSb₂ (M = Ta, Nb): A combined experimental and computational study", arXiv:2403.12484.
• Himanshu Murari, Swati Shaw, Subhradip Ghosh, "Strain aided drastic reduction in lattice thermal conductivity and improved thermoelectric properties in Janus MXenes", arXiv:2403.13543.

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• Debashree Chowdhury, O. Entin-Wohlman, A. Aharony, "Thermoelectric performance of nano junctions subjected to microwave driven spin-orbit coupling", arXiv:2403.10264.

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• Leyla Majidi, Abolhassan Vaezi, Mehdi Kargarian, "Stoner ferromagnetism, correlated metal and thermoelectricity in partially flat-band materials", arXiv:2403.09147.
• Maximilian Frank, Julian-Steven Schilling, Theresa Zorn, Philipp Kessler, Stephanie Bachmann, Ann-Christin Pöppler, Jens Pflaum, "Influence of Dimensionality of Carbon-based Additives on Thermoelectric Transport Parameters in Polymer Electrolytes", arXiv:2403.09340.
• Xin Jin, Qiling Ou, Haoran Wei, Xianyong Ding, Fangyang Zhan, Rui Wang, Xiaolong Yang, Xuewei Lv, Peng Yu, "Anomalous thermal transport and high thermoelectric performance of Cu-based vanadate CuVO₃", arXiv:2403.09384.

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• Alessandra Canetta, et al.,"Impact of spin-entropy on the thermoelectric properties of a 2D magnet", arXiv:2403.08581.

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• Kaidong Song, A. N. M. Tanvir, Md Omarsany Bappy, Yanliang Zhang, "New Directions for Thermoelectrics: A Roadmap from High-Throughput Materials Discovery to Advanced Device Manufacturing", arXiv:2403.05952.
• L. W. Guo, C. M. Wang, "Thermoelectric transport of the coexistence topological semimetal in the quantum limit", arXiv:2403.06603.

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• Poulomi Chakraborty, Aaron Hui, Grigory Bednik, Brian Skinner, "Magnetothermopower of nodal line semimetals", arXiv:2403.03084.
• Yubi Chen, Rongying Jin, Bolin Liao, Sai Mu, "Thermoelectric Transport in Weyl Semimetal BaMnSb₂: a First-Principles Study", arXiv:2403.00997.

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• Rajkumar Sarma and Steffen Hardt, "Giant Thermoelectric Response of Confined Electrolytes with Thermally Activated Charge Carrier Generation", Phys. Rev. Lett. 132, 098001 (2024).

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• Fuyuki Ando, Takamasa Hirai, Abdulkareem Alasli, Hossein Sepehri-Amin, Yutaka Iwasaki, Hosei Nagano, Ken-ichi Uchida, "Multifunctional composite magnet for practical transverse thermoelectrics", arXiv:2402.18019.

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• Nagaraj Nandihalli, "A short account of thermoelectric film characterization techniques", Materials Today Physics, 36, 101173 (2023)[arXiv:2402.14656].
• Dumitru Calugaru, Haoyu Hu, Rafael Luque Merino, Nicolas Regnault, Dmitri K. Efetov, B. Andrei Bernevig, "The Thermoelectric Effect and Its Natural Heavy Fermion Explanation in Twisted Bilayer and Trilayer Graphene", arXiv:2402.14057.

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• Rafael Luque Merino, Dumitru Calugaru, Haoyu Hu, Jaime Diez-Merida, Andres Diez-Carlon, Takashi Taniguchi, Kenji Watanabe, Paul Seifert, B. Andrei Bernevig, Dmitri K. Efetov, "Evidence of heavy fermion physics in the thermoelectric transport of magic angle twisted bilayer graphene", arXiv:2402.11749.

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• Caique Campos de Oliveira, Douglas Soares Galvao, Pedro Alves da Silva Autreto, "Selective Hydrogenation Promotes Anisotropic Thermoelectric Properties of TPDH-Graphene", arXiv:2402.09572.

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• Maryam Mahdavifar, Farhad Khoeini, Francois M. Peeters, "Band engineering of phosphorene/graphene van der Waals nanoribbons toward high-efficiency thermoelectric devices", arXiv:2402.07668.

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• Enrico Drigo, Stefano Baroni, Paolo Pegolo, "Seebeck coefficient of ionic conductors from Bayesian regression analysis", arXiv:2402.04873.
• Miho Odagiri, Hiroto Imaeda, Ahmet Yagmur, Yuichiro Kurokawa, Satoshi Sumi, Hiroyuki Awano, Kenji Tanabe, "Maximizing bipolar sensitivity for anomalous Nernst thermopiles in heat flux sensing in amorphous GdCo alloys", arXiv:2402.04259.

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• Yufei Li, Yihang Duan, Mingzhi Wang, Lili Lang, Yu Zhang, Meng Yang, Junxue Li, Weijia Fan, Ka Shen, Zhong Shi, and Shi-Ming Zhou, "Giant Magnon-Polaron Anomalies in Spin Seebeck Effect in Double Umbrella-Structured Tb₃Fe₅O₁₂ Films", Phys. Rev. Lett. 132, 056702 (2024).

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• Raphael M. Tromer, L. A. Ribeiro Junior, Douglas S. Galvao, Alexandre C. Dias, Elie A. Moujaes, "On the mechanical, thermoelectric, and excitonic properties of Tetragraphene monolayer", arXiv:2401.17406.
• Jincheng Yue, Jiongzhi Zheng, Junda Li, Siqi Guo, Wenling Ren, Han Liu, Yanhui Liu, Tian Cui, "Ultra-low glassy thermal conductivity and controllable, promising thermoelectric properties in crystalline o-CsCu₅S₃", arXiv:2401.16527.

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• Radityo Wisesa, Anugrah Azha, Edi Suprayoga, "hermal transport and thermoelectric properties of transition metal dichalcogenides MoX₂ from first-principles calculation", arXiv:2401.13845.

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• Yasuyuki Kato, Joji Nasu, Masahiro Sato, Tsuyoshi Okubo, Takahiro Misawa, Yukitoshi Motome, "Spin Seebeck Effect as a Probe for Majorana Fermions in Kitaev Spin Liquids", arXiv:2401.13175.
• Juncheng Li, Dawei Zhai, Cong Xiao, Wang Yao, "Dynamical Chiral Nernst Effect in Twisted Van der Waals Few Layers", arXiv:2401.13278.

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• Takumi Yamazaki, Takamasa Hirai, Takashi Yagi, Yuichiro Yamashita, Ken-ichi Uchida, Takeshi Seki, Koki Takanashi, "Quantitative measurement of figure of merit for transverse thermoelectric conversion in Fe/Pt metallic multilayers", arXiv:2401.11692.

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• Ken-ichi Uchida, Tetsuya Kuwabara, Toru Tanji, Makoto Fujimoto, Ren Nagasawa and Ryo Iguchi, "Anomalous Nernst thermoelectric generation in multilayer-laminated coiled magnetic wires", Appl. Phys. Express 16, 093001 (2024).
• Jin-Xin Hu, Chuanchang Zeng, Yugui Yao, "Colossal Layer Nernst Effect in Twisted Moire Layers", arXiv:2401.09661.

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• Srimayi Korrapati, Snehasish Nandy, Sumanta Tewari, "Nonlinear thermoelectric response induced by Berry curvature quadrupole in systems with broken time-reversal symmetry", arXiv:2401.08155.
• Parbati Senapati, Prakash Parida, "Charge and Spin Thermoelectric Transport in Benzene-Based Molecular Nano-Junctions: A Quantum Many-Body Study", arXiv:2401.08128.
• Laurel E. Anderson, Antti Laitinen, Andrew Zimmerman, Thomas Werkmeister, Henry Shackleton, Alexander Kruchkov, Takashi Taniguchi, Kenji Watanabe, Subir Sachdev, Philip Kim, "Magneto-Thermoelectric Transport in Graphene Quantum Dot with Strong Correlations", arXiv:2401.08050.
• Natalya A. Zimbovskaya, "Thermoelectric properties of Marcus molecular junctions", arXiv:2401.07099.
• J. R. Cooper, J. C. Baglo, C. Putzke, A. Carrington, "Thermoelectric power of overdoped Tl2201 crystals: Charge density waves and T¹ and T² resistivities", Supercond. Sci. Technol. 37, 015017 (2024) [arXiv:2401.08380].

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• Himangshu Murari, Subhradip Ghosh, "Symmetry Lowering Through Surface Engineering and Improved Thermoelectric Properties in MXenes", arXiv:2401.06335.

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• Himanshu Sharma, Bhawna Sahni, Tanusri Saha-Dasgupta, Aftab Alam, "Cu₂ZnSiTe₄: A potential thermoelectric material with promising electronic transport", arXiv:2401.05903.

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• Xin Qian, Zhihao Ma, Qiangqiang Huang, Haoran Jiang, Ronggui Yang, "Thermodynamics of Ionic Thermoelectrics for Low-Grade Heat Harvesting", arXiv:2401.04886.

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• M.Amir Bazrafshan, Farhad Khoeini, "Flexible thermoelectrics in crossed graphene/hBN composites", arXiv:2401.04274.
• Miho Odagiri, Hiroto Imaeda, Ahmet Yagmur, Yuichiro Kurokawa, Satoshi Sumi, Hiroyuki Awano, Kenji Tanabe, "Coexistence of large anomalous Nernst effect and large coercive force in amorphous ferrimagnetic TbCo alloy films", arXiv:2401.04445.

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• Anuja Kumari, Abhinav Nag, Santanu K. Maiti, Jagdish Kumar, "Enhanced Thermoelectric Properties of 2D Janus Ferromagnetic LaBrI with Strain-induced Valley Degeneracy", arXiv:2401.01683.

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• Tristan da Camara Santa Clara Gomes, Nicolas Marchal, Joaquin de la Torre Medina, Flavio Abreu Araujo, Luc Piraux, "Thermoelectric and magneto-transport characteristics of interconnected networks of ferromagnetic nanowires and nanotubes", arXiv:2312.14627.
• V. N. Mantsevich, D. S. Smirnov, "Tunneling spin Nernst effect for a single quantum dot", arXiv:2312.14700.

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• Finantius E. M. Rahangiar, Adam B. Cahaya, Melania S. Muntini, Isa Anshori, Eddwi H. Hasdeo, "Optimal half-metal band structure for large thermoelectric performance", arXiv:2312.13140.
• Mauricio Gomez Viloria, Riccardo Messina, Philippe Ben-Abdallah, "Electron-tunneling-induced thermoelectric effects", arXiv:2312.13017.
• Johannes Hofmann, Habib Rostami, "Nonlinear Thermoelectric Probes of Anomalous Dynamics in Topological Fermi Liquids", arXiv:2312.12520.
• Yufei Ge, Weitang Li, Jiajun Ren, Zhigang Shuai, "Roles of non-local electron-phonon coupling on the electrical conductivity and Seebeck coefficient: a TD-DMRG study", arXiv:2312.11159.

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• T. Völkl, A. Aharon-Steinberg, T. Holder, E. Alpern, N. Banu, A. K. Pariari, Y. Myasoedov, M. E. Huber, M. Hcker, E. Zeldov, "Imaging the Ettingshausen effect and cryogenic thermoelectric cooling in a van der Waals semimetal", arXiv:2312.05850.
• Dmitry A. Mylnikov, Mikhail A. Kashchenko, Kirill N. Kapralov, Davit A. Ghazaryan, Evgenii E. Vdovin, Sergey V. Morozov, Kostya S. Novoselov, Denis A. Bandurin, Alexander I. Chernov, Dmitry A. Svintsov, "Infrared photodetection in graphene-based heterostructures: bolometric and thermoelectric effects at the tunneling barrier", arXiv:2312.05612.

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• S. Dahri, A. Jabar, L. Bahmad, L. B. Drissi, R. Ahl Laamara, "The electronic, thermodynamic, thermoelectric and optical properties of Ca(InP)₂ compound: DFT study", arXiv:2312.01102.

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• Masashige Onoda and Satoshi Takada, "T-Linear Resistivity and Thermoelectric Power in Heavy-Fermion Spinel LiV₂O₄", J. Phys. Soc. Jpn. 92, 124706 (2023).

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• Nikhil Gupt, Shuvadip Ghosh, Arnab Ghosh, "Graph Theoretic Analysis of Three-Terminal Quantum Dot Thermocouples: Onsager Relations and Spin-Thermoelectric Effects", arXiv:2311.16548.

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• Fumiya Matsunaga, Yoshihiko Okamoto, Yasunori Yokoyama, Kanji Takehana, Yasutaka Imanaka, Yuto Nakamura, Hideo Kishida, Shoya Kawano, Kazuyuki Matsuhira, Koshi Takenaka, "Anisotropic Optical Conductivity Accompanied by a Small Energy Gap in One-Dimensional Thermoelectric Telluride Ta₄SiTe₄", arXiv:2311.13031.

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• Kun Song, Shuang Wang, Yiwei Duan, Xiang Ling, and Peter Schiavone, "Effect of Inevitable Heat Leap on the Conversion Efficiency of Thermoelectric Generators", Phys. Rev. Lett. 131, 207001 (2023).
• Rajkumar Modak, Takamasa Hirai, Seiji Mitani, and Ken-ichi Uchida, "Observation of the Anisotropic Magneto-Thomson Effect", Phys. Rev. Lett. 131, 206701 (2023).

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• Giovanni Trezza, Eliodoro Chiavazzo, "On some elusive aspects of databases hindering AI based discovery: A case study on superconducting materials", arXiv:2311.09891.

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• Anustup Mukherjee, Alaska Subedi, "Thermoelectric transport properties of electron doped pyrite FeS₂", arXiv:2311.06135.

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• Patrizio Graziosi, Neophytos Neophytou, "The role of electronic bandstructure shape in improving the thermoelectric power factor of complex materials", arXiv:2311.03935.

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• Niraj Kumar Singh, Victor Hjort, Davide Gambino, Arnaud le Febvrier, Ganpati Ramanath, Björn Alling, Per Eklund, "Effect of W alloying on the electronic structure, phase stability and thermoelectric properties of epitaxial CrN films", arXiv:2311.02453.

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• Bei Cao, Chongze Han, Xiang Hao, Chen Wang, Jincheng Lu, "Quantum coherence effects on inelastic thermoelectric devices: From diodes to transistors", arXiv:2311.00193.
• Deepak Gujjar, Sunidhi Gujjar, V. K. Malik, Hem C. Kandpal, "Transport and electrical properties of cryogenic thermoelectric FeSb₂: the effect of isoelectronic and hole doping", arXiv:2311.00326.

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• Clodoaldo I. L. de Araujo, Pauli Virtanen, Maria Spies, Carmen Gonzlez-Orellana, Samuel Kerschbaumer, Maxim Ilyn, Celia Rogero, Tero T. Heikkil, Francesco Giazotto, E. Strambini, "Superconducting Spintronic Heat Engine", arXiv:2310.18132.

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• Keisuke Masuda, Masahiro Sato, "Microscopic theory of spin Seebeck effect in antiferromagnets", arXiv:2310.15292 [J. Phys. Soc. Jpn. 93, 034702 (2024)].
• Federico Paolucci, Gaia Germanese, Alessandro Braggio, Francesco Giazotto, "Thermoelectric single-photon detection through superconducting tunnel junctions", arXiv:2310.15606.

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• Jincheng Lu, Zi Wang, Jie Ren, Chen Wang, Jian-Hua Jiang, "Coherence-enhanced thermodynamic performance in periodically driven thermoelectric heat engines", arXiv:2310.10465.
• Fuyuki Ando, Takamasa Hirai, Ken-ichi Uchida, "Permanent-magnet-based transverse thermoelectric generator with high fill factor driven by anomalous Nernst effect", arXiv:2310.10220.
• Ravi Gautam, Takamasa Hirai, Abdulkareem Alasli, Hosei Nagano, Tadakatsu Ohkubo, Ken-ichi Uchida, Hossein Sepehri-Amin, "Creation of flexible spin-caloritronic material with giant transverse thermoelectric conversion by nanostructure engineering", arXiv:2310.10233.

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• Hiroaki Ishizuka, Masahiro Sato, "Peltier effect of phonon driven by ac electromagnetic waves", arXiv:2310.03271.

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• Rahul Ghosh, Ipsita Mandal, "Electric and thermoelectric response for Weyl and multi-Weyl semimetals in planar Hall configurations including the effects of strain", arXiv:2310.02318.

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• H. Akter, M. A. Ali, M. M. Hossain, M. M. Uddin, S. H. Naqib, "Oxysulfide Perovskites: Reduction of the Electronic Band Gap of RbTaO₃ by Sulfur Substitution to Enhance Prospective Solar Cell and Thermoelectric Performances", arXiv:2310.01253.
• Ashutosh Kumar, Adrien Moll, Mouhamad Navid Mouhamadsiradjoudine, Francois Brisset, David Berardan, Nita Dragoe, "Thermoelectric properties of high-entropy wolframite oxide: (CoCuNiFeZn)_1−xGa_xWO₄", arXiv:2310.00930.
• Jingjun Li, Yingpeng Qi, Qing Yang, Luye Yue, Changyuan Yao, Zijing Chen, Sheng Meng, Dao Xiang, Jianming Cao, "Femtosecond electron diffraction reveals local disorder and local anharmonicity in thermoelectric SnSe", arXiv:2310.00890.
• S. Mahmud, M. A. Ali, M. M. Hossain, M. M. Uddin, "DFT aided prediction of phase stability, optoelectronic and thermoelectric properties of A₂AuScX₆ (A= Cs, Rb; X= Cl, Br, I) double perovskites for energy harvesting technology", arXiv:2310.00611.

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• Hiroaki Yamamoto, Masamori Akiguchi, Hiroki Kominato, Ai Nozaki, Masao Morishita, "Electrodeposition of BiTe Thermoelectric Material in Ethylene Glycol-BiCl₃TeCl₄ Non-Aqueous Solution", Materials Transactions, Vol.64 No.10 (2023) pp.2503-2507.
• Akira Nagaoka, Katsuma Nagatomo, Koki Nakashima, Yuichi Hirai, Yasuyuki Ota, Kenji Yoshino, Kensuke Nishioka, "Thermoelectric Conversion Efficiency of 4% in Environmental-Friendly Kesterite Single Crystal", Materials Transactions, Vol.64 No.10 (2023) pp.2535-2541.

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• Aida Serrano, Olga Caballero-Calero, Cecilia Granados-Miralles, Giulio Gorni, Cristina V. Manzano, Marta Rull-Bravo, Alberto Moure, Marisol Martin-Gonzalez, Jose F. Fernandez, "CoSb₃-based skutterudite nanocomposites prepared by cold sintering process with enhanced thermoelectric properties", J. Alloys Compd. 931 (2023) 167534 [arXiv:2309.14904].

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• Kaiki Shibata, Naoya Yamaguchi, Hikaru Sawahata, Fumiyuki Ishii, "Thermoelectric effect in kagome lattice enhanced at van Hove singularities", arXiv:2309.11728 [J. Phys. Soc. Jpn. 92, 124704 (2023)].

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• Ipsita Mandal, Kush Saha, "Thermoelectric response in two-dimensional nodal-point semimetals", arXiv:2309.10763.
• Ole Nickel, Ludwig J. V. Ahrens-Iwers, Robert H. Meissner, Mathijs Janssen, "Water, not salt, causes most of the Seebeck effect of nonisothermal aqueous electrolytes", arXiv:2309.07853.

  ---

• Sachin Verma, Ajay, "Seebeck power generation and Peltier cooling in a Normal metal-quantum dot-superconductor nanodevice", arXiv:2309.09008.

  ---

• Guangzong Xing, Keisuke Masuda, Terumasa Tadano, Yoshio Miura, "Chemical Doping-Driven Giant Anomalous Hall and Nernst Conductivity in Magnetic Cubic Heusler Compounds", arXiv:2309.07722.
• Fatemeh Heydarinasab, Morteza Jazandari, Md Mobarak Hossain Polash, Jahanfar Abouie, Daryoosh Vashaee, "Paramagnon Heat Capacity and Anomalous Thermopower in Anisotropic Magnetic Systems: Understanding Inter-Layer Spin Correlations in a Magnetically Disordered Phase", arXiv:2309.07646.

  ---

• Manaho Matsubara, Takahiro Yamamoto, Hidetoshi Fukuyama, "Two-band Model with High Thermoelectric Power Factor and Its Application to FeSe Thin Film", arXiv:2309.04932 [J. Phys. Soc. Jpn. 92, 104704 (2023)].
• Ryota Otsuki, Yoshiki J. Sato, Ryuji Okazaki, Tomoya Komine, Ryosuke Kurihara, Hiroshi Yaguchi, "Carrier filtering effect for enhanced thermopower in a body-centered tetragonal ruthenate", arXiv:2309.05313.

  ---

  [先頭]
• Jinsong Xu, Weiwei Lin, Jiaming He, J.-S. Zhou, Danru Qu, Ssu-Yen Huang, C. L. Chien, "Vector spin Seebeck effect and spin swapping effect in antiferromagnetic insulators with non-collinear spin structure", APL Mater. 11, 091102 (2023) [arXiv:2309.03382].

  ---

• Nicholas P. Quirk, Danfeng Li, Bai Yang Wang, Harold Y. Hwang, N. P. Ong, "The vortex-Nernst effect in a superconducting infinite-layer nickelate", arXiv:2309.03170.

  ---

• Ramzy Daou, Sylvie Hebert, Gaël Grissonnanche, Elena Hassinger, Louis Taillefer, Haruka Taniguchi, Yoshiteru Maeno, Alexandra S. Gibbs, Andrew P. Mackenzie, "Anisotropic Seebeck coefficient of Sr₂RuO₄ in the incoherent regime", arXiv:2309.01403.

  ---

• Wenkai Ouyang, Alexander C. Lygo, Yubi Chen, Huiyuan Zheng, Dung Vu, Brandi L. Wooten, Xichen Liang, Wang Yao, Joseph P. Heremans, Susanne Stemmer, Bolin Liao, "Extraordinary Thermoelectric Properties of Topological Surface States in Quantum-Confined Cd₃As₂ Thin Films", arXiv:2308.16487.

  ---

• Shuhan Liu, Shaojie Hu, Xiaomin Cui, Takashi Kimura, "Efficient thermo-spin conversion in van der Waals ferromagnet FeGaTe", arXiv:2308.14977.

  ---

• Sachin Verma, B. S. Tewari, A. Dhyani, Ajay, "Revisiting thermoelectric transport across strongly correlated quantum dot: A Green's function equation of motion theory perspective", arXiv:2308.09927.
• Seth W. Kurfman, Denis R. Candido, Brandi Wooten, Yuanhua Zheng, Michael J. Newburger, Shuyu Cheng, Roland K. Kawakami, Joseph P. Heremans, Michael E. Flatte, Ezekiel Johnston-Halperin, "Magnon Diffusion Length and Longitudinal Spin Seebeck Effect in Vanadium Tetracyanoethylene (V[TCNE]_x, x2)", arXiv:2308.09752.
• Susmita Chowdhury, Victor Hjort, Rui Shu, Grzegorz Greczynski, Arnaud le Febvrier, Per Eklund, Martin Magnuson, "Thermoelectric properties and electronic structure of Cr(Mo,V)Nx thin films studied by synchrotron and lab-based X-ray spectroscopy", arXiv:2308.10750.

  ---

• Zheng Shu, Bowen Wang, Xiangyue Cui, Xuefei Yan, Hejin Yan, Huaxian Jia, Yongqing Cai, "High-performance Thermoelectric Monolayer γ-GeSe and its Group-IV Monochalcogenide Isostructural Family", Chem. Eng. J. 454, 140242 (2023) [arXiv:2308.05628].
• Abhishek Ghosh, Chandan Kumar Vishwakarma, Prashant Bisht, Narinder Kaur, Mujeeb Ahmad, Bodh Raj Mehta, "Modulating thermoelectric properties in oxygen-passivated Sb2Te3 thin film through grain boundary engineering", arXiv:2308.07906.
• Yuna Nakajima, Yuichi Akahama, Yo Machida, "Thermoelectric response across the semiconductor-semimetal transition in black phosphorus", arXiv:2308.07900.

  ---

• Rasmus S. Christensen, Peter S. Thorup, Lasse R. Jorgensen, Martin Roelsgaard, Karl F. F. Fischer, Ann-Christin Dippel, Bo Brummerstedt Iversen, "Oxide layer formation prevents deteriorating ion migration in thermoelectric Cu₂Se during operation in air", arXiv:2308.03559.

  ---

• Saumen Chaudhuri, Amrita Bhattacharya, A. K. Das, G. P. Das, B. N. Dev, "Hydrostatic Pressure Induced Anomalous Enhancement in the Thermoelectric Performance of Monolayer MoS₂", arXiv:2308.00423.

  ---

• Yu Liu, Zhixiang Hu, Xiao Tong, David Graf, C. Petrovic, "Electronic transport and thermoelectricity in selenospinel Cu_6−xFe_4+xSn₁₂Se₃₂", arXiv:2307.15797.

  ---

• Anderson S. Chaves, Murilo Aguiar Silva, Alex Antonelli, "Computational prediction of high thermoelectric performance in As₂Se₃ by engineering out-of-equilibrium defects", arXiv:2307.14078.
• Neophytos Neophytou, Pankaj Priyadarshi, Zhen Li, Patrizio Graziosi, "Electronic transport computation in thermoelectric materials: From ab initio scattering rates to nanostructures", arXiv:2307.13800.

  ---

• Lei Chen, Weiyao Zhaoa, Meng Li, Guangsai Yang, Lei Guo, Abudulhakim Bake, Peng Liu, David Cortie, Ren-Kui Zheng, Zhenxiang Cheng, Xiaolin Wang, "Topological Insulator V_xBi_1.08-xSn_0.02Sb_0.9Te₂S as a Promising n-type Thermoelectric Material", Journal of Alloys and Compounds 918, 165550 (2022)[arXiv:2307.13395].
• Jose Balduque, Rafael Sanchez, "Coherent control of thermoelectric flows and noise in quantum thermocouples", arXiv:2307.13319.
• Claudio Guarcello, Roberta Citro, Francesco Giazotto, Alessandro Braggio, "Bipolar thermoelectrical SQUIPT (BTSQUIPT)", arXiv:2307.13053.

  ---

• Renjie Luo, Xuanhan Zhao, Tanner J. Legvold, Liyang Chen, Changjiang Liu, Deshun Hong, Anand Bhattacharya, Douglas Natelson, "The challenges of measuring spin Seebeck noise", arXiv:2307.11218.

  ---

• Anand Manaparambil, Ireneusz Weymann, "Nonequilibrium Seebeck and spin Seebeck effects in nanoscale junctions", arXiv:2307.10393.

  ---

• Alessandro Braggio, Matteo Carrega, Björn Sothmann, Rafael Sanchez, "Nonlocal thermoelectric detection of interaction and correlations in edge states", arXiv:2307.09410.

  ---

• E. S. Bozin, H. Xie, A. M. M. Abeykoon, S. M. Everett, M. G. Tucker, M. G. Kanatzidis, and S. J. L. Billinge, "Local Sn Dipolar-Character Displacements behind the Low Thermal Conductivity in SnSe Thermoelectric", Phys. Rev. Lett. 131, 036101 (2023).

  ---

• Martin Ulaga, Jernej Mravlje, Jure Kokalj, "The thermoelectric effect on diffusion in the two-dimensional Hubbard model", arXiv:2307.05320.
• Leonie Gomell, Imants Dirba, Hanna Bishara, Zhongji Sun, Lukasz. Zrodowski, Tomasz Choma, Bartosz Moronczyk, Gerhard Dehm, Konstantin P. Skokov, Oliver Gutfleisch, B. Gault, "Microstructure of a spark-plasma-sintered Fe₂VAl-type Heusler alloy for thermoelectric application", arXiv:2307.05051.

  ---

  [先頭]
• Daniel Scheffler, Sebastian Beckert, Helena Reichlova, Thomas G. Woodcock, Sebastian T. B. Goennenwein, Andy Thomas, "Anomalous Nernst effect in perpendicularly magnetised τ-MnAl thin films", arXiv:2307.03458.

  ---

• Renjie Luo, Tanner J. Legvold, Liyang Chen, Henry Navarro, Ali C. Basaran, Deshun Hong, Changjiang Liu, Anand Bhattacharya, Ivan K. Schuller, Douglas Natelson, "Low temperature spin Seebeck effect in non-magnetic vanadium dioxide", arXiv:2307.02594.
• Taras Parashchuk, Oleksandr Cherniushok, Raul Cardoso-Gil, Janusz Tobola, Yuri Grin, Krzysztof T. Wojciechowski, "Discovery of the high thermoelectric performance in low-cost Cu₈SiS_xSe_6-x argyrodites", arXiv:2307.01682.

  ---

• Rajkumar Modak, Weinan Zhou, Yuya Sakuraba and Ken-ichi Uchida, "Comparison of the in-plane coercive field and anomalous Nernst effect between a co-sputtered SmCo amorphous film and Sm/Co multilayer amorphous films with various layer thicknesses", Appl. Phys. Express 16, 053003 (2023).
• Yume Morishima, Naoya Yamaguchi, Hikaru Sawahata and Fumiyuki Ishii, "Seebeck-induced anomalous Nernst effect in van der Waals MnBi₂Te₄ layers", Appl. Phys. Express 16, 043003 (2023).

  ---

• I. Khomchenko, H. Ouerdane, G. Benenti, "Influence of the Anderson transition on thermoelectric energy conversion in disordered electronic systems", arXiv:2307.00921.

  ---

• Raffael L. Klees, Daniel Gresta, Jonathan Sturm, Laurens W. Molenkamp, Ewelina M. Hankiewicz, "Majorana-mediated thermoelectric transport in multiterminal junctions", arXiv:2306.17845.

  ---

• X. Zotos, "Spin Seebeck effect in the classical easy-axis antiferromagnetic chain", arXiv:2306.16840.

  ---

• Mohd Zeeshan, Chandan Kumar Vishwakarma, B. K. Mani, "First-principles study of disordered half-Heusler alloys XFe_0.5Ni_0.5Sn (X = Nb, Ta) as thermoelectric prospects", arXiv:2306.14234.

  ---

• Raja Sen, Nathalie Vast, Jelena Sjakstey, "Role of Dimensionality and Size in Controlloing the Drag Seebeck Coefficient of Doped Silicon Nanostructures: A Fundamental Understanding", arXiv:2306.13497.

  ---

• T. K. T. Nguyen, H. Q. Nguyen, M. N. Kiselev, "Thermoelectric transport across a tunnel contact between two charge Kondo circuits", arXiv:2306.12229.

  ---

• Bhawna Sahni, Riddhimoy Pathak, P C Sreeparvathy, Tanusri Saha-Dasgupta, Kanishka Biswas, Aftab Alam, "Thermoelectric properties of Topological Weyl Semimetal Cu₂ZnGeTe₄", arXiv:2306.11656.
• E.Z. Kuchinskii, N.A. Kuleeva, M.V. Sadovskii, "Thermoelectric Power and Hall Effect in Correlated Metals and Doped Mott-Hubbard Insulators: DMFT approximation", arXiv:2306.11463.

  ---

• Victor H. Guarochico-Moreira, et al., "Thermopower in hBN/graphene/hBN superlattices", arXiv:2306.08705.
• Qirui Cui, Bowen Zeng, Tao Yu, Hongxin Yang, Ping Cui, "Efficient Spin Seebeck and Spin Nernst Effects of Magnons in Altermagnets", arXiv:2306.08976.

  ---

• Chandan Kumar Vishwakarma, Mohd Zeeshan, B. K. Mani, "Ab initio study of NaSrSb and NaBaSb as potential thermoelectric prospects", arXiv:2306.07751.

  ---

• Cesar Gonzalez-Ruano, Diego Caso, Jabir Ali Ouassou, Coriolan Tiusan, Yuan Lu, Jacob Linder, and Farkhad G. Aliev, "Observation of Magnetic State Dependent Thermoelectricity in Superconducting Spin Valves", Phys. Rev. Lett. 130, 237001 (2023).

  ---

• Masayuki Ochi, "Electron-hole dichotomy for thermoelectric transport in a two-valley system with strong intervalley scattering", arXiv:2306.04075.

  ---

• Diego Perez Daroca, Pablo Roura-Bas, Armando A. Aligia, "Thermoelectric properties of a double quantum dot out of equilibrium in Kondo and intermediate valence regimes", arXiv:2306.01519.

  ---

• Xiefei Song, Guangzhao Wang, Li Zhou, Haiyan Yang, Xiaopan Li, Haitao Yang, Yuncheng Shen, Guangyang Xu, Yuhui Luo, Ning Wang, "Oxide perovskite BaSnO₃: A promising high-temperature thermoelectric material for transparent conducting oxides", arXiv:2306.00320.

  ---

• Abhishek Ghosh, Khushboo Agarwal, Sergio Gonzalez Munoz, Prashant Bisht, Chandan K Vishwakarma, Narinder Kaur, Mujeeb Ahmad, Per Erik Vullum, Branson D.Belle, Rajendra Singh, O. V. Kolosov, Bodh Raj Mehta, "Tuning thermoelectric properties of Sb₂Te₃-AgSbTe₂ nanocomposite thin film -- synergy of band engineering and heat transport modulation", arXiv:2305.19217.

  ---

• Sebastiano Battisti, Giorgio De Simoni, Luca Chirolli, Alessandro Braggio, Francesco Giazotto, "Bipolar thermoelectric superconducting single-electron transistor", arXiv:2305.14114.

  ---

• Mukesh Jakhar, Raman Sharma, Ashok Kumar, "Janus β-PdXY (X/Y = S, Se, Te) Materials with high Anisotropic Thermoelectric Performance", Nanoscale, 15, 5964-5975 (2023)[arXiv:2305.11923].
• Poonam Chauhan, Jaspreet Singh, Ashok Kumar, "Mechanical, Optical and Thermoelectric Properties of Janus BiTeCl Monolayer", Journal of Physics and Chemistry of Solids, 167, 110758 (2023)[arXiv:2305.11922].
• Ritesh Das, Colin Benjamin, "Majorana Thermoelectrics and Refrigeration", arXiv:2305.12462.

  ---

• Jong Woong Park, Young-Kwang Jung, Aron Walsh, "Metal halide thermoelectrics: prediction of high-performance CsCu₂I₃", arXiv:2305.11745.
• Poonam Chauhan, Jaspreet Singh, Ashok Kumar, "As-based ternary Janus monolayers for efficient thermoelectric and photocatalytic applications", J. Mater. Chem. A, 11, 10413-10424 (2023) [arXiv:2305.11494].

  ---

  [先頭]
• Qiang Chen, Jialin Li, Huanfeng Zhu, Tian Zhang, Wei Tang, Hui Xing, Jin Peng, Zhiqiang Mao, Linjun Li, "A simplified method characterizing magnetic ordering modulated photo-thermoelectric response in noncentrosymmetric semimetal Ca₃Ru₂O₇", arXiv:2305.09347.

  ---

• Yuga Kodama, Nobuhiko Taniguchi, "Quantum coherent control of linear and nonlinear thermoelectricity on graphene nanostructure heat engines", arXiv:2305.07242.

  ---

• Richa P. Madhogaria, Shirin Mozaffari, Heda Zhang, William R. Meier, Seung-Hwan Do, Rui Xue, Takahiro Matsuoka, David G. Mandrus, "Topological Nernst and topological thermal Hall effect in rare-earth kagome ScMn₆Sn₆", arXiv:2305.06496.

  ---

• Kallol Mondal, Sudin Ganguly, Santanu K. Maiti, "Thermoelectric phenomena in an antiferromagnetic helix: Role of electric field", arXiv:2305.05582.

  ---

• Jose D. Bermudez-Perez, Edwin Herrera-Vasco, Javier Casas-Salgado, Hector A. Castelblanco, Karen Vega-Bustos, Oscar L. Herrera-Sandoval, Hermann Suderow, Paula Giralgo-Gallo, Jose A. Galvis, "High-Resolution Scanning Tunneling Microscope and its Adaptation for Local Thermopower Measurements in 2D Materials", arXiv:2305.03418.
• Gaurav Jamwal, Ankit Kumar, Mohd Warish, Shruti Chakravarty, Saravanan Muthiah, Asokan Kandasami, Asad Niazi, "Band degeneracy, resonant level formation and low thermal conductivity in dilute In and Ga co-doped thermoelectric compound SnTe", arXiv:2305.02046.

  ---

• I. Pallecchi, F. Caglieris, M. Ceccardi, N. Manca, D. Marre, L. Repetto, M. Schott, D. I. Bilc, S. Chaitoglou, A. Dimoulas, M. J. Verstraete, "Investigation and field effect tuning of thermoelectric properties of SnSe₂ flakes", arXiv:2304.14718.

  ---

• Junnosuke Matsuki, Masahito Mochizuki, "Thermoelectric effect of skyrmion crystal confined in a magnetic disk", Phys. Rev. B 107, L100408 (2023) [arXiv:2304.09503].

  ---

• Subrahmanyam Bandaru, Agnieszka M. Jastrzebska, Magdalena Birowska, "Recent progress in thermoelectric MXene-based structures versus other 2D materials", arXiv:2304.07015.
• Sergey Smirnov, "Majorana differential shot noise and its universal thermoelectric crossover", arXiv:2304.06284 [Physical Review B 107, 155416 (2023)].

  ---

• Adam Rycerz, Katarzyna Rycerz, Piotr Witkowski, "Thermoelectric properties of the Corbino disk in graphene", arXiv:2304.03827.

  ---

• Enrico Drigo, Stefano Baroni, "Seebeck coefficient of liquid water from equilibrium molecular dynamics", arXiv:2304.03573.

  ---

• Yuya Hattori, Shunsuke Yoshizawa, Keisuke Sagisaka, Yuki Tokumoto, Keiichi Edagawa, Takako Konoike, Shinya Uji, Taichi Terashima, "Experimental verification of band convergence in Sr and Na codoped PbTe", arXiv:2304.02844.
• Masahiro Ohno, Koji Shimizu and Satoshi Watanabe, "Realistic simulation of thermoelectric characteristics of organic semiconductors based on electronic structure calculations", Appl. Phys. Express 16, 011005 (2023).
• Jun Sakuma, Kenji Kamide, Toshimitsu Mochizuki, Hidetaka Takato and Hidefumi Akiyama, "Output-power equivalence of two- and four-terminal photovoltaic-thermoelectric hybrid tandems", Appl. Phys. Express 16, 014003 (2023).

  ---

• Jonatan Fast, Hanna Lundström, Sven Dorsch, Lars Samuelson, Adam Burke, Peter Samuelsson, Heiner Linke, "Geometric symmetry breaking and nonlinearity can increase thermoelectric power", arXiv:2304.01616.
• Ge-Hui Zhu, Ying-Li Wu, Jia-Liang Wan, Xiao-Qin Yu, "Unidirectional Seebeck effect from Rashba spin-orbit coupling on the subsurface of Ge(111)", arXiv:2304.01683.

  ---

• Ajay Kumar, Parbati Senapati, Prakash parida, "Theoretical insights on structural, electronic and thermoelectric properties of inorganic biphenylene: non-benzenoid Boron nitride", arXiv:2304.00868.

  ---

• Chayan Das, Dibyajyoti Saikia, Atanu Betal, Satyajit Sahu, "Low-Temperature Thermoelectric Performance and Optoelectronic Properties of Monolayer of WX₂N₄(X = Si, Ge)", arXiv:2303.18014.
• A. Hijano, F. S. Bergeret, F. Giazotto, A. Braggio, "Bipolar thermoelectricity in S/I/NS and S/I/SN superconducting tunnel junctions", arXiv:2303.18212 .
• Akira Endo, Shingo Katsumoto, Yasuhiro Iye, "Anisotropic Behavior of the Thermoelectric Power and the Thermal Conductivity in a Unidirectional Lateral Superlattice: A Typical Anisotropic System Exhibiting Two Distinct Nernst Coefficients", J. Phys. Soc. Jpn. 92, 044705 (2023).

  ---

• Willdauany C. de Freitas Silva, Maykon V. M. Araujo, Sayantan Roy, Abhisek Samanta, Natanael de C. Costa, Nandini Trivedi, Thereza Paiva, "Effects of lattice geometry on thermopower properties of the repulsive Hubbard mode", arXiv:2303.16291.

  ---

• Y. Selmani, H. Labrim, A. Jabar, L. Bahmad, "Thermoelectric Properties of Mg doped Mercury Selenide HgSe", arXiv:2303.15179.

  ---

• Hasan Salehi Najafabadi, Mark. A. Meier, Gary A. Hallock, "The Acousto-Thermoelectric Effect", arXiv:2303.12951.
• Ondrej Stejskal, Martin Veis, Jaroslav Hamrle, "Theoretical studies of enhanced anomalous Nernst effect in Fe₃Ga", arXiv:2303.12886.

  ---

• Shen Han, Shengnan Dai, Jie Ma, Qingyong Ren, Chaoliang Hu, Ziheng Gao, Manh Duc Le, Denis Sheptyakov, Ping Miao, Shuki Torii, Takashi Kamiyama, Claudia Felser, Jiong Yang, Chenguang Fu, Tiejun Zhu, "Giant phonon softening and avoided crossing in aliovalence-doped heavy-band thermoelectrics", arXiv:2303.10899.

  ---

• Claudio Guarcello, Alessandro Braggio, Francesco Giazotto, Roberta Citro, "Thermoelectric signatures of order-parameter symmetries in iron-based superconducting tunnel junctions", arXiv:2303.07173.
• Enrico Di Lucente, Michele Simoncelli, Nicola Marzari, "Crossover from Boltzmann to Wigner thermal transport in thermoelectric skutterudites", arXiv:2303.07019.

  ---

• M. Xochitl Aguilar-Pujol, et al., "Magnon currents excited by the spin Seebeck effect in ferromagnetic EuS thin films", arXiv:2303.03833. [先頭]

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• Md Farhan Tanzim, Nuno Fortunato, Ilias Samathrakis, Ruiwen Xie, Ingo Opahle, Oliver Gutfleisch, Hongbin Zhang, "Giant anomalous Hall and Nernst conductivities in magnetic all-d metal Heusler alloys", arXiv:2303.02351.
• Fabian Garmroudi, Michael Parzer, Alexander Riss, Cedric Bourges, Sergii Khmelevskyi, Takao Mori, Ernst Bauer, Andrej Pustogow, "High thermoelectric performance in metallic NiAu alloys", arXiv:2303.03062.

  ---

• Zachariah Addison, Lauren Keyes, Mohit Randeria, "Theory of Topological Nernst and Thermoelectric Transport in Chiral Magnets", arXiv:2303.01609.

  ---

• Nahual Sobrino, Roberto D'Agosta, Stefan Kurth, "Thermoelectric efficiency in multi-terminal quantum thermal machines with steady-state density functional theory", arXiv:2303.01355.

  ---

• Hitarth Choubisa, Md Azimul Haque, Tong Zhu, Lewei Zeng, Maral Vafaie, Derya Baran, Edward H. Sargent, "Closed-loop Error Correction Learning Accelerates Experimental Discovery of Thermoelectric Materials", arXiv:2302.13380.
• Wen O. Wang, Jixun K. Ding, Edwin W. Huang, Brian Moritz, Thomas P. Devereaux, "Quantitative assessment of the universal thermopower in the Hubbard model", arXiv:2302.13169.
• Chen Ran, Xinrun Mi, Junying Shen, Honghui Wang, Kunya Yang, Yan Liu, Guiwen Wang, Guoyu Wang, Youguo Shi, Aifeng Wang, Yisheng Chai, Xiaolong Yang, Mingquan He, Xin Tong, Xiaoyuan Zhou, "Anomalous Nernst effect in a ferrimagnetic nodal-line semiconductor Mn₃Si₂Te₆", arXiv:2302.13735.

  ---

• Serhii Volosheniuk, Damian Bouwmeester, Chunwei Hsu, H. S. J. van der Zant, Pascal Gehring, "Implementation of SNS thermometers into molecular devices for cryogenic thermoelectric experiments", arXiv:2302.12222.

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• R. S. Cortes-Santamaria, J. A. Landazabal-Rodriguez, J. Silva-Valencia, E. Ramos, M. S. Figueira, R. Franco, "Universality and the thermoelectric transport properties of a double quantum dot system: Seeking for conditions that improve the thermoelectric efficiency", arXiv:2302.09099.

  ---

• Pankaj Priyadarshi, Neophytos Neophytou, "Computationally efficient Monte Carlo electron transport algorithm for nanostructured thermoelectric material configurations", Journal of Applied Physics 133, 054301 (2023)[arXiv:2302.03743].

  ---

• Federico Paolucci, Gaia Germanese, Alessandro Braggio, Francesco Giazotto, "A highly-sensitive broadband superconducting thermoelectric single-photon detector", arXiv:2302.02933.

  ---

• Anderson S. Chaves, Michele Pizzochero, Daniel T. Larson, Alex Antonelli, Efthimios Kaxiras, "Semiclassical Electron and Phonon Transport from First Principles: Application to Layered Thermoelectrics", arXiv:2302.00202.

  ---

• Ashutosh Kumar, Preeti Bhumla, D. Sivaprahasam, Saswata Bhattacharya, Nita Dragoe, "Effect of crystal field engineering and Fermi level optimization on thermoelectric properties of Ge_1.01Te: Experimental investigation and theoretical insight", arXiv:2301.13193.

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• Anand Manaparambil, Ireneusz Weymann, "Nonequilibrium Seebeck effect and thermoelectric efficiency of Kondo-correlated molecular junctions", arXiv:2301.10506.

  ---

• Weinan Zhou, Asuka Miura, Takamasa Hirai, Yuya Sakuraba, Ken-ichi Uchida, "Seebeck-driven transverse thermoelectric generation in magnetic hybrid bulk materials", arXiv:2301.09903.

  ---

• Ahnaf Tahmid Abir, Bipanko Kumar Mondal, Jaker Hossain, "Exploring the potential of GeTe for the application in Thermophotovoltaic (TPV) cell", arXiv:2301.08896.
• Anthony N. Tantillo, Alexander Barcza, Volker Zellmann, Vittorio Basso, Martino LoBue, Nora M. Dempsey, Karl G. Sandeman, "Hard Ferromagnets as a New Perspective on Materials for Thermomagnetic Power Generation Cycles", arXiv:2301.08854 [Physics Letters A, 461, 128632 (2023)].

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• E. S. Bozin, H. Xie, A. M. M. Abeykoon, S. M. Everett, M. G. Tucker, M. G. Kanatzidis, S. J. L. Billinge, "Nanoscale Sn off-centering behind low thermal conductivity in SnSe thermoelectric", arXiv:2301.05773.
• Victor M. Garcia-Suarez, "Thermoelectric response enhanced by surface/edge states in physical nanogaps", Materials 2023, 16(2), 660 [arXiv:2301.06966].
• Jadupati Nag, R. Venkatesh, Ajay Jha, Plamen Stamenov, P. D. Babu, Aftab Alam, K. G. Suresh, "CoRuVSi: A potential candidate for spin semimetal with promising spintronic and thermoelectric properties", arXiv:2301.05854.

  ---

• A. P. Meilakhs, "Electronic Kapitza resistance and related kinetic coefficients at an interface between n-type semiconductors", arXiv:2301.05161.
• Vikrant Chaudhary, Tashi Nautiyal, Tulika Maitra, Jeroen van den Brink, Hem C. Kandpal, "Ultra-low lattice thermal conductivity in Bi-doped KMgSb and role of spin-orbit coupling in thermoelectric performance: An ab-initio study", arXiv:2301.04969.

  ---

• Jizhu Hu Jinxin Zhong Jun Zhou, "High-temperature thermoelectric properties with Th_3−xTe₄", arXiv:2301.02763.
• Weinan Zhou, Asuka Miura, Yuya Sakuraba, Ken-ichi Uchida, "Direct electrical probing of anomalous Nernst conductivity", arXiv:2301.02465.

  ---

• Mohammadali Razeghi, Jean Spiece, Oguzhan Oguz, Doruk Pehlivanoglu, Yubin Huang, Ali Sheraz, Phillip S. Dobson, Jonathan M. R. Weaver, Pascal Gehring, T. Serkan Kasrga, "Single-material MoS₂ thermoelectric junction enabled by substrate engineering", arXiv:2301.00974.
• Vikas Saini, Bikash Patra, Bahadur Singh, A. Thamizhavel, "Coexistence of phononic Weyl, nodal line, and threefold excitations in chalcopyrite CdGeAs₂ and associated thermoelectric properties", arXiv:2301.00635.
• Bhawna Sahni, Aftab Alam, "Double Half-Heusler Alloys X₂Ni₂InSb (X= Zr/Hf) with promising Thermoelectric Performance: Role of varying structural phases", arXiv:2301.00598.
• M. Szot, K. Dybko, A. Mycielski, A. Reszka, R. Minikayev, P. Dziawa, T. Story, "Thermoelectric PbTe-CdTe bulk nanocomposite", arXiv:2212.14616. [先頭]

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• Paul O. Adebambo, Gboyega A. Adebayo, Roberto Guerra, Davide Ceresoli, "Electronic and phonon contributions to the Thermoelectric properties of newly discovered half-Heusler alloys XHfPb (X= Ni, Pd, and Pt)", arXiv:2212.10848.

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• Fatemeh Moghadasi Borojeni, Esmaeil Taghizadeh Sisakht, Farhad Fazileh, F. M. Peeters, "Enhanced thermoelectric properties in phosphorene nanorings", arXiv:2212.10260.

  ---

• M. Amir Bazrafshan, Farhad Khoeini, "Electronic transport and thermoelectric properties of phosphorene nanodisk under an electric field", arXiv:2212.09012.

  ---

• Luis M. Antunes, Keith T. Butler, Ricardo Grau-Crespo, "Predicting Thermoelectric Transport Properties from Composition with Attention-based Deep Learning", arXiv:2212.06444.
• Abdalghani Daaoub, Renhang Wang, Ross Davidson, Sara Sangtarash, Hatef Sadeghi, "Intermolecular interaction enhances thermoelectric performance of molecular junctions", arXiv:2212.06537.

  ---

• Dorothea Scheunemann, Emmy Järsvall, Jian Liu, Davide Beretta, Simone Fabiano, Mario Caironi, Martijn Kemerink, Christian Müller, "Charge transport in doped conjugated polymers for organic thermoelectrics", arXiv:2212.05795.

  ---

• David M. T. Kuo, "Effects of metallic electrodes on the thermoelectric properties of quantum dot array realized by zigzag graphene nanoribbons with periodic vacancies", arXiv:2212.02008.
• Sebastian Beckert, et al., "Anomalous Nernst effect in Mn₃NiN thin films", arXiv:2212.02129.

  ---

• Duraisamy Sivaprahasam, Ashutosh Kumar, Babu Jayachandran, Raghavan Gopalan, "Thermoelectric properties of Sb doped AlFe₂B₂", arXiv:2212.01193.

  ---

• Yanan Li, Huichao Wang, Jingyue Wang, Chunming Wang, Yanzhao Liu, Jun Ge, Jingjing Niu, Wenjie Zhang, Pinyuan Wang, Ran Bi, Jinglei Zhang, Ji Yan Dai, Jiaqiang Yan, David Mandrus, Nitin Samarth, Haizhou Lu, Xiaosong Wu, Jian Wang, "Anomalous magneto-thermoelectric behavior in massive Dirac materials", arXiv:2211.17027.
• Esther Orisakwe, Conrad Johnston, Ruchita Jani, Xiaoli Liu, Lorenzo Stella, Jorge Kohanoff, Niall Holmes, Brian Norton, Ming Qu, Hongxi Yin, Kazuaki Yazawa, "Thermoelectric properties of cement composite analogues from first principles calculations", arXiv:2211.17128.

  ---

• Zhe Cheng, Beniamin Zahiri, Patrick Kwon, Paul V. Braun, David G. Cahill, "Ionic Peltier Effect in Li Ion Battery Electrolytes", arXiv:2211.14949.

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• Peng Li, Pengfei Qiu, Qing Xu, Jun Luo, Yifei Xiong, Jie Xiao, Niraj Aryal, Qiang Li, Lidong Chen, Xun Shi, "Colossal Nernst power factor in topological semimetal NbSb₂", arXiv:2211.13135.

  ---

• Tao Feng, Panshuo Wang, Zhijia Han, Liang Zhou, Zhiran Wang, Wenqing Zhang, Qihang Liu, Weishu Liu, "A topological transition-induced giant transverse thermoelectric effect in polycrystalline Dirac semimetal Mg₃Bi₂", arXiv:2211.10729.

  ---

• Shao-Bo Chen, San-Dong Guo, Bing Lv, Mei Xu, Xiang-Rong Chen, Hua-Yun Geng, "Ultra-low lattice thermal conductivity induces high-performance thermoelectricity in Janus group-VIA binary monolayers", arXiv:2211.09971.

  ---

• Alessandro Sola, Elena Olivetti, Luca Martino, Vittorio Basso, "Polycrystalline MnBi as a transverse thermoelectric material", arXiv:2211.09553.

  ---

• Saul Sanchez-Gonzalez, Amador Garcia-Fuente, Jaime Ferrer, "Relevance of Shockley states on the electrical and thermoelectric response of gold-based single-molecule junctions", arXiv:2211.07492.
• M. H. K. Rubel, M. A. Hossain, M. Khalid Hossain, K. M. Hossain, A. A. Khatun, M. M. Rahaman, Md. Ferdous Rahman, M. M. Hossain, J. Hossain, "First-principles calculations to investigate structural, elastic, electronic, thermodynamic, and thermoelectric properties of CaPd₃B₄O₁₂ (B = Ti, V) perovskite", arXiv:2211.06601.

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• A. Hijano, F. S. Bergeret, F. Giazotto, A. Braggio, "Microwave-assisted thermoelectricity in SIS' tunnel junctions", arXiv:2211.04288.

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• Andhika Kiswandhi, Tomotaka Ochi, Toshihiro Taen, Mitsuyuki Sato, Kazuhito Uchida, Toshihito Osada, "Quantized thermoelectric Hall plateau in the quantum limit of graphite as a nodal line semimetal", arXiv:2211.02306.

  ---

• Tomoki Hirosawa, Frank Schäfer, Hideaki Maebashi, Hiroyasu Matsuura, and Masao Ogata, "Data-Driven Reconstruction of Spectral Conductivity and Chemical Potential Using Thermoelectric Transport Properties", J. Phys. Soc. Jpn. 91, 114603 (2022).
• Yoshikazu Suzumura, Masao Ogata, "Seebeck Coefficient of Two-dimensional Dirac Electrons in Organic Conductor under Pressure", arXiv:2211.00966.

  ---

• Joseph M. Hamill, Ali Ismael, Alaa Al-Jobory, Troy L. R. Bennett, Maryam Alshahrani, Xintai Wang, Maxwell Akers-Douglas, Luke A. Wilkinson, Benjamin J. Robinson, Nicholas J. Long, Colin Lambert, Tim Albrecht, "Quantum Interference and Contact Effects in Thermoelectric Performance of Anthracene-Based Molecules", arXiv:2210.17232.
• Gang Liu, Aiqing Guo, Fengli Cao, Weiwei Ju, Zhaowu Wang, Hui Wang, Guo-Ling Li, Zhibin Gao, "Ultrahigh thermoelectric performance of Janus α-STe₂ and α-SeTe₂ monolayers", arXiv:2210.16566.

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• Manish Verma, Rossitza Pentcheva, "Oxygen vacancies tuned carrier localization, magnetic and thermoelectric properties in ultrathin (LaNiO_3−δ)₁/(LaAlO₃)₁(001) superlattices", arXiv:2210.15501.

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• Keigo Takahashi, Hiroyasu Matsuura, Hideaki Maebashi, Masao Ogata, "Thermoelectric properties in semimetals with inelastic electron-hole scattering", arXiv:2210.14825.

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• Vikash Sharma, Divya Sharma, Ranu Bhatt, Pankaj Patro, Gunadhor Singh Okram, "Enhanced Thermoelectric Performance of Nanostructured Nickel Doped Ag₂Te", arXiv:2210.13903.
• Mousumi Mitra, Allen Benton, Md Sabbir Akhanda, Jie Qi, Mona Zebarjadi, David J. Singh, S. Joseph Poon, "Conventional Half-Heusler Alloys Advance State-of-the-Art Thermoelectric Properties", arXiv:2210.13949.

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• M.Amir Bazrafshan, Farhad Khoeini, "Tuning Phononic and Electronic Contributions of Thermoelectric in defected S-Shape Graphene Nanoribbons", arXiv:2210.13276.

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• Naoki Kouda, Kyohei Eguchi, Ryuji Okazaki, Masafumi Tamura, "Anomalous scaling law for thermoelectric transport of 2D-confined electrons in an organic molecular system", Phys. Rev. Research 4, 043050 (2022) [arXiv:2210.11631].

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• G. Grissonnanche, G. A. Pan, H. LaBollita, D. Ferenc Segedin, Q. Song, H. Paik, C. M. Brooks, A. S. Botana, J. A. Mundy, B. J. Ramshaw, "Seebeck coefficient in a nickelate superconductor: electronic dispersion in the strange metal phase", arXiv:2210.10987. [先頭]

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• Md Shahin Alam, Amar Fakhredine, Mujeeb Ahmed, P.K. Tanwar, Hung-Yu Yang, Fazel Tafti, Giuseppe Cuono, Rajibul Islam, Bahadur Singh, Artem Lynnyk, Carmine Autieri, Marcin Matusiak, "Sign change of the anomalous Hall effect and the anomalous Nernst effect in Weyl semimetal CeAlSi", arXiv:2210.09764.

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• Byungki Ryu, Jaywan Chung, Masaya Kumagai, Tomoya Mato, Yuki Ando, Sakiko Gunji, Atsumi Tanaka, Dewi Yana, Masayuki Fujimoto, Yoji Imai, Yukari Katsura, SuDong Park, "Best Thermoelectric Efficiency of Ever-Explored Materials", arXiv:2210.08837.

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• Jinsong Xu, Jiaming He, J.-S. Zhou, Danru Qu, Ssu-Yen Huang, C. L. Chien, "Observation of Vector Spin Seebeck Effect in a Noncollinear Antiferromagnet", Phys. Rev. Lett. 129, 117202 (2022) [arXiv:2210.06602].

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• Takashi Kikkawa, Koichi Oyanagi, Tomosato Hioki, Masahiko Ishida, Zhiyong Qiu, Rafael Ramos, Yusuke Hashimoto, Eiji Saitoh, "Composition-tunable magnon-polaron anomalies in spin Seebeck effects in epitaxial Bi_xY_3−xFe₅O₁₂ films", Phys. Rev. Materials 6, 104402 (2022)[arXiv:2210.03346].
• Zirui Dong, Yubo Zhang, Jun Luo, Ying Jiang, Zhiyang Yu, Nan Zhao, Liusuo Wu, Yurong Ruan, Fang Zhang, Kai Guo, Jiye Zhang, Wenqing Zhang, "High-performance non-Fermi-liquid metallic thermoelectric materials", arXiv:2210.04201.

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• Naoki Chiba, Satoshi Ishii, Rajkumar Modak and Ken-ichi Uchida, "Single-material-based anomalous Nernst thermopile driven by solar heating and radiative cooling", Appl. Phys. Express 15, 093001 (2022).
• Natalia Corts, Patricio Vargas, S. E. Ulloa, "Entropy and Seebeck signals meet on the edges", arXiv:2210.00151.
• Paramita Dutta, "Phase-dependent thermoelectricity in short Josephson junctions at helical edge states", arXiv:2210.00936.

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• Thorvald M. Ballestad, Alberto Cortijo, Maria A. H. Vozmediano, Alireza Qaiumzadeh, "Unconventional thermo-electric transport in tilted Weyl semimetals", arXiv:2209.14331.

  ---

• Sanchayita Mondal, Krishanu Ghosh, R. Ranganathan, Eric Alleno, Chandan Mazumdar, "Superparamagnetic and metal-like Ru2TiGe: a propitious thermoelectric material", arXiv:2209.08474.
• Preeti Bhumla, Manjari Jain, Sajjan Sheoran, Saswata Bhattacharya, "Vacancy-ordered Double Perovskites A₂BX₆ (A = Cs, B = Pt, Pd, Te, Sn, X = I): An Emerging Class of Thermoelectric Materials", arXiv:2209.08559.

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• Jinsong Xu, Jiaming He, J.-S. Zhou, Danru Qu, Ssu-Yen Huang, and C.L. Chien, "Observation of Vector Spin Seebeck Effect in a Noncollinear Antiferromagnet", Phys. Rev. Lett. 129, 117202 (2022).
• Jesse Maassen, "The Limits of Thermoelectric Performance with a Bounded Transport Distribution", Phys. Rev. B 104, 184301 (2021) [arXiv:2209.04666].
• Vahid Askarpour, Jesse Maassen, "First-principles analysis of intravalley and intervalley electron-phonon scattering in thermoelectric materials", arXiv:2209.04659.

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• Zahidul Islam Jitu, Georg Schwiete, "Interaction corrections to the thermopower of the disordered two-dimensional electron gas", arXiv:2209.03995.

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• Marcel S Claro, "Sharp enhancement on thermoelectric figure-of-merit of post-transition metal chalcogenides (PTMCs) using heterostructures with Mexican-hat valence band", arXiv:2209.02313.

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• Xinrun Mi, Wei Xia, Long Zhang, Yuhan Gan, Kunya Yang, Aifeng Wang, Yisheng Chai, Yanfeng Guo, Xiaoyuan Zhou, Mingquan He, "Multiband effects in thermoelectric and electrical transport properties of kagome superconductors AV₃Sb₅ (A = K, Rb, Cs)", arXiv:2209.01089.

  ---

• Yosuke Kurosaki, Shin Yabuuchi, Akinori Nishide, Naoto Fukatani and Jun Hayakawa, "Thermoelectric properties of composition-controlled Fe₂TiSi-based full-Heusler thin films", Appl. Phys. Express 15, 085502 (2022).

  ---

• Amardeep Sagar, Aman Bhardwaj, Andrei Novitskii, Vladimir Khovaylo, Satyabrata Patnaik, "Substantial enhancement in thermoelectric figure-of-merit of half Heusler ZrNiPb alloys", arXiv:2208.13563.

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• Renjie Luo, Xuanhan Zhao, Liyang Chen, Tanner J. Legvold, Henry Navarro, Ivan K. Schuller, Douglas Natelson, "Spin Seebeck effect at low temperatures in the nominally paramagnetic insulating state of vanadium dioxide", arXiv:2208.12284.

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• David M T Kuo, Yia-Chung Chang, "Contact effects on thermoelectric properties of textured graphene nanoribbons", arXiv:2208.10783.

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• Ioannis Konidakis, Beate Krause, Gyu-Hyeon Park, Nithin Pulumati, Heiko Reith, Petra Ptschke, Emmanuel Stratakis, "Probing the carrier dynamics of polymer composites with single and hybrid carbon nanotube fillers for improved thermoelectric performance", arXiv:2208.10283.

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• Teng Ji, Li Li, Hao-Tian Sun, "Thermoelectric Transport in Holographic Quantum Matter under Shear Strain", arXiv:2208.08803.

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• Yu Liu, Zhixiang Hu, Michael O. Ogunbunmi, Eli Stavitski, Klaus Attenkofer, Svilen Bobev, Cedomir Petrovic, "Giant thermoelectric power factor anisotropy in PtSb_1.4Sn_0.6", arXiv:2208.08647.

  ---

• Syed Zuhair Abbas Shah, Shanawer Niaz, Tabassum Nasir, James Sifuna, "Eco-friendly Bismuth Based Double Perovskites X₂NaBiCl₆ (X=Cs, Rb, K) for Optoelectronic and Thermoelectric Applications: A First-Principles Study", arXiv:2208.04123.
• Koichi Oyanagi, Saburo Takahashi, Takashi Kikkawa, Eiji Saitoh, "Mechanism of paramagnetic spin Seebeck effect", arXiv:2208.03857.

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• Petar Yordanov, Tim Priessnitz, Min-Jae Kim, Georg Cristiani, Gennady Logvenov, Bernhard Keimer, Stefan Kaiser, "Intense terahertz radiation via the transverse thermoelectric effect", arXiv:2208.01480.

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• Bingyan Jiang, Jiaji Zhao, Jiangyuan Qian, Shen Zhang, XiaoBin Qiang, Lujunyu Wang, Ran Bi, Juewen Fan, Hai-Zhou Lu, Enke Liu, Xiaosong Wu, "Antisymmetric Seebeck effect in a tilted Weyl semimetal", Phys. Rev. Lett. 129, 056601 (2022) [arXiv:2208.00434].
• Adel Kara Slimane, Genevieve Fleury, "Thermoelectric study of the time-dependent Resonant Level Model", arXiv:2208.00180.
• Anilkumar Bohra, Satish Vitta, "Sustainability of large scale waste heat harvesting using thermoelectric", arXiv:2208.00616.
• Patrizio Graziosi, Zhen Li, Neophytos Neophytou, "ElecTra Code: Full-Band Electronic Transport Properties of Materials", arXiv:2208.00745.

  ---

• Akimasa Sakuma, and Daisuke Miura, "First-Principles Calculation of Transport Properties of Heusler Alloy Co₂MnAl at Finite Temperatures", J. Phys. Soc. Jpn. 91, 084701 (2022).

  ---

• Josh Mutch, Wei-Chih Chen, Cheng-Yi Huang, Paul Malinowski, Cheng-Chien Chen, Jiun-Haw Chu, "p x n-Type Transverse Thermoelectrics in a Type-II Weyl Semimetal TaIrTe₄", arXiv:2207.13687.

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• L. Chotorlishvili, Xi-guang Wang, A. Dyrdal, Guang-hua Guo, V.K. Dugaev, J. Barnas, J. Berakdar, "Rectification of the spin Seebeck current in noncollinear antiferromagnets", Phys. Rev. B 106, 014417 (2022) [arXiv:2207.12890].

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• P. V. Gorskyi, "Do thermoelectric generator modules degrade due to nickel diffusion", arXiv:2207.12122.

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• Gaia Germanese, Federico Paolucci, Giampiero Marchegiani, Alessandro Braggio, Francesco Giazotto, "Phase-control of bipolar thermoelectricity in Josephson tunnel junctions", arXiv:2207.10595.

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• Lorenzo Bernazzani, Giampiero Marchegiani, Francesco Giazotto, Stefano Roddaro, Alessandro Braggio, "Bipolar Thermoelectricity in Bilayer-Graphene/Superconductor Tunnel Junctions", arXiv:2207.08908.

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• Guillermo Lopez-Polin, Hugo Aramberri, Jorge Marques-Marchan, Benjamin I. Weintrub, Kirill I. Bolotin, Jorge I. Cerda, Agustina Asenjo, "High power density energy harvesting devices based on the anomalous Nernst effect of Co/Pt magnetic multilayers", arXiv:2207.07526. [先頭]

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• Xiang Huang, Shengluo Ma, Haidong Wang, Shangchao Lin, C. Y. Zhao, Hong Wang, Shenghong Ju, "Enhancing thermoelectric properties of isotope graphene nanoribbons via machine learning guided manipulation of disordered antidots and interfaces", arXiv:2207.05546.
• P.V.Gorskyi, "Diffusion theory of electrical contact resistance of "thermoelectric superlattice metal" couple", arXiv:2207.05065.
• Vinod Kumar Solet, Shamim Sk, Sudhir K. Pandey, "First-principles study of optoelectronic and thermoelectronic properties of the ScAgC half-Heusler compound", arXiv:2207.05661.

  ---

• A. D. Shkop, "Thermoelectric effects in tunneling of spin-polarized electrons in a molecular transistor", arXiv:2207.04234 [Journal of Low Temperature Physics (2022)].
• Ken-ichi Uchida, Joseph P. Heremans, "Thermoelectrics: from Longitudinal to Transverse", arXiv:2207.05005.

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• Akira Endo, Shingo Katsumoto, Yasuhiro Iye, "Effect of small-angle scattering on the anisotropic behavior of the commensurability oscillations in the thermoelectric power and the thermal conductivity of unidirectional lateral superlattices", arXiv:2207.02367.

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• Ritesh Das, Colin Benjamin, "Probing Majorana Bound States via Thermoelectric Transport", arXiv:2207.01515.

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• Thierno-Moussa Bah, Stanislav Didenko, Di Zhou, Tianqi Zhu, Hafsa Ikzibane, Stephane Monfray, Thomas Skotnicki, Emmanuel Dubois, Jean-Franois Robillard, "Single-Crystal Silicon Thermoelectrics by Phonon Engineering", arXiv:2207.00535.
• Bashdar Rahman Pirot, Nzar Rauf Abdullah, Ari Karim Ahmed, "Thermal transport driven by Coulomb interactions in quantum dots: Enhancement of thermoelectric and heat currents", arXiv:2207.00204.
• Ping Tang, Ken-ichi Uchida, Gerrit E. W. Bauer, "Nonlocal Drag Thermoelectricity Generated by Ferroelectric Heterostructures", arXiv:2207.00240.

  ---

• Akihiro Wake, Dai Inoue and Yutaka Moritomo, "A liquid thermoelectric device composed of organic solution", Appl. Phys. Express 15, 054002 (2022).

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• Eleanor F. Scott, Katherine A. Schlaak, Poulomi Chakraborty, Chenguang Fu, Satya N. Guin, Safa Khodabakhsh, Ashley E. Paz y Puente, Claudia Felser, Brian Skinner, Sarah J. Watzman, "Doping as a tuning mechanism for magneto-thermoelectric effects to improve zT in polycrystalline NbP", arXiv:2206.14377.

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• Kazuaki Kobayashi, Hirokazu Takaki, Masato Shimono, Hiroyuki Ishii, Nobuhiko Kobayashi, Kenji Hirose, Naohito Tsujii and Takao Mori, "First principles study of Fe₂VAl and Fe₂VAl/Si thin films and their magnetic properties", JJAP(Accepted Manuscript online)[J. Appl. Phys. 61[SL] (2022) SL1013 (Special issue)].
• Kazuhiko Seki, Masakazu Mukaida, Qingshuo Wei, Takao Ishida, "Thickness optimization of the output power and effective thermoelectric figure of merit of thin thermoelectric generator", arXiv:2206.13686.

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• Navita Jakhar, Nita Bisht, Ankita Katre, Surjeet Singh, "Synergistic approach towards reproducible high zT in superionic thermoelectric Ag₂Te", arXiv:2206.12609.

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• Atwa Mohamed, Yuita Fujisawa, Takatsugu Onishi, Markel Pardo-Almanza, Mathieu Couillard, Keita Harada, Tsunehiro Takeuch, Yoshinori Okada, "Magnetic fluctuation driven large enhancement of the thermopower at a critical doping in magnetic semimetal Cr_1+dTe₂", arXiv:2206.12044.

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• Ashutosh Kumar, Diana Dragoe, David Berardan, Nita Dragoe, "Thermoelectric properties of high-entropy rare-earth cobaltates", arXiv:2206.11106.

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• Kitinan Pongsangangan, T. Ludwig. H.T.C. Stoof, Lars Fritz, "Hydrodynamics of charged two-dimensional Dirac systems I: thermo-electric transport", arXiv:2206.09687.

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• Ren Nagasawa, Koichi Oyanagi, Takamasa Hirai, Rajkumar Modak, Satoru Kobayashi, Ken-ichi Uchida, "Anomalous Ettingshausen effect in iron-carbon alloys", arXiv:2206.07322.

  ---

• Alexander Gavrikov, Georgy Kostin, "Time Optimization of Constrained Control for a Thermoelectric Solid System with a Peltier Element", arXiv:2206.06745.
• Haiyang Yang, Qi Wang, Junwu Huang, Zhouliang Wang, Keqi Xia, Chao Cao, Mingliang Tian, Zhuan Xu, Jianhui Dai, Yuke Li, "Sign-reversed anomalous Nernst effect in the ferromagnetic Weyl-semimetal Fe_3-xGeTe₂: the role of Fe vacancies", arXiv:2206.06545.

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• F. R. Pratama, Riichiro Saito, Nguyen T. Hung, "Magneto-Seebeck coefficient of Fermi-liquid in three-dimensional Dirac/Weyl semimetal", arXiv:2206.04957.

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• Junsoo Park, "Globally Optimal Band Structure for Thermoelectrics in Realistic Systems", arXiv:2206.03423.

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• Kallol Mondal, Sudin Ganguly, Santanu K. Maiti, "Strain-induced thermoelectricity in pentacene", arXiv:2206.02370.
• Ao Wu, Yiming Zhang, Yujie Xia, Lei Peng, Heyuan Zhu, Hezhu Shao, Hao Zhang, "High thermoelectric performances in PbP monolayers considering full electron-phonon coupling and four-phonon scattering processes", arXiv:2206.02188.
• Zhuoran Geng, Ilari J. Maasilta, "Analytical models for the pulse shape of a superconductor-ferromagnet tunnel junction thermoelectric microcalorimeter", rXiv:2206.02513.

  ---

• Giuseppe Bevilacqua, Alessandro Cresti, Giuseppe Grosso, Guido Menichetti, Giuseppe Pastori Parravicini, "Quantum bounds for power production, efficiency and thermal currents in thermoelectric nanostructures", arXiv:2206.00294.

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• Kazuo Soda, Wataru Ikedo, Toshimitsu Hayashi, Taiki Shirakawa, Hidetoshi Miyazaki, and Yoichi Nishino, "Hard X-Ray Photoemission Study on Bulk Electronic Structure of Heusler-Type Fe_2−xV_1+xAl Alloys", J. Phys. Soc. Jpn. 91, 064713 (2022).
• Kouta Awaji, Ryosuke Nakajima, Kazuya Nishimura, Toma Takedachi, Tetsuya Ando, Yukihiro Kawamura, Hirotada Gotou, Chihiro Sekine, "High-Pressure Synthesis and Thermoelectric Properties of Partially Filled Skutterudites R_xCo₄Sb₁₂ (R = In, Tb and Dy)", MATERIALS TRANSACTIONS, 63(6), 776 (2022).

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• Ransell D'Souza, Jose D. Querales-Flores, Jiang Cao, Stephen Fahy, Ivana Savic, "Temperature induced band convergence, intervalley scattering and thermoelectric transport in p-type PbTe", arXiv:2205.13897.

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• Chunhua Li, Nakib H Protik, Pablo Ordejon, David Broido, "Colossal phonon drag enhanced thermopower in lightly doped diamond", arXiv:2205.12317.
• Pedro Borlido, Friedhelm Bechstedt, Silvana Botti, Claudia Rödl, "Ensemble averages of ab initio optical, transport, and thermoelectric properties of hexagonal Si_xGe_1−x alloys", arXiv:2205.12612.

  ---

  [先頭]
• Andri Darmawan, Edi Suprayoga, Ahmad R. T. Nugraha, Abdullah A. AlShaikhi, "Thermoelectrics properties of two-dimensional materials with combination of linear and nonlinear band structures", arXiv:2205.10603.
• Takashi Kikkawa, Eiji Saitoh, "Spin Seebeck Effect: Sensitive Probe for Elementary Excitation, Spin Correlation, Transport, Magnetic Order, and Domains in Solids", arXiv:2205.10509.
• Junbo Zhu, Changmin Lee, Fahad Mahmood, Takehito Suzuki, Shiang Fang, Nuh Gedik, Joseph G. Checkelsky, "Band Structure Driven Thermoelectric Response of Topological Semiconductor ZrTe₅", arXiv:2205.10394.

  ---

• Michael O. Ogunbunmi, Svilen Bobev, "The Highly Disordered Zintl Phase Ca₁₀GdCdSb₉ -- New Example of a p-type Semiconductor with Remarkable Thermoelectric Properties", arXiv:2205.08559.

  ---

• Mukesh K. Choudhary, H. Fjellvg, P. Ravindran, "First principle studies on electronic and thermoelectric properties of Fe₂TiSn based multinary Heusler alloys", arXiv:2205.07688.

  ---

• P. V. Gorskyi, "ThermoEMF of powder-based thermoelectric materials", arXiv:2205.04929.

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• H. Zhang, C.Q. Xu, S.H. Lee, Z.Q. Mao, X. Ke, "Thermal and thermoelectric properties of an antiferromagnetic topological insulator MnBi₂Te₄", arXiv:2205.02262.
• Ramya Gurunathan, Suchismita Sarker, Christopher K. H. Borg, James Saal, Logan Ward, Apurva Mehta, G. Jeffrey Snyder, "Mapping Thermoelectric Transport in a Multicomponent Alloy Space", arXiv:2205.01520.
• Jabir Ali Ouassou, Cesar Gonzalez-Ruano, Diego Caso, Farkhad G. Aliev, Jacob Linder, "Complete magnetic control over the superconducting thermoelectric effect", arXiv:2205.01111.
• Takayoshi Yamanaka, Ryuji Okazaki, Hiroshi Yaguchi, "Enhanced Seebeck coefficient through the magnetic fluctuations in Sr₂Ru_1−xM_xO₄ (M= Co, Mn)", arXiv:2205.00599.

  ---

• Songci Li, Alex Levchenko, "Nonlocal Thermoelectric Resistance in Vortical Viscous Transport", arXiv:2204.14104.

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• Syed Zuhair Abbas Shah, Shanawer Niaz, Tabassum Nasir, James Sifuna, "Novel small band gap double perovskites comprising of silver and thallium: A DFT insight into structural, optoelectronic, and thermoelectric properties", arXiv:2204.12123.

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• Shamim Sk, Sudhir K. Pandey, "Density functional study of thermodynamic properties, thermal expansion and lattice thermal conductivity of Fe2VAl at high temperature region", arXiv:2204.11198.

  ---

• Shamim Sk, P. Devi, Sanjay Singh, Sudhir K. Pandey, "Thermoelectric properties of Fe₂VAl at high temperature region: A combined experimental and theoretical study", arXiv:2204.08654.

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• Atsushi Takahagi, Takamasa Hirai, Ryo Iguchi, Keita Nakagawara, Hosei Nagano, Ken-ichi Uchida, "Spin Peltier effect and its length scale in Pt/YIG system at high temperatures", arXiv:2204.05482 [Appl. Phys. Express 15, 063002 (2022)].

  ---

• Kamran Behnia, "What is measured when measuring a thermoelectric coefficient?", arXiv:2204.04429.
• David Ming Ting Kuo, "Effects of zigzag edge states on the thermoelectric properties of finite-size armchair graphene nanoribbons", arXiv:2204.04426.

  ---

• Md Golam Rosul, Mona Zebarjadi, "Effect of electron-phonon interaction on the room temperature thermoelectric properties of bulk MoSe₂", arXiv:2204.02596.

  ---

• Takahiro Yamamoto, Masao Ogata, and Hidetoshi Fukuyama, "Thermoelectric Effect in Mott Variable-Range Hopping", J. Phys. Soc. Jpn. 91, 044704 (2022) [arXiv:2204.02764].
• Makoto Tachibana, Ahmad Rifqi Muchtar and Takao Mori, "Thermoelectric properties of Nb-doped Sr_1−x(La_0.5Na_0.5)_xTiO₃ perovskites", Appl. Phys. Express 15, 011003 (2022).
• Takuma Itoh, Asuka Miura, Ken-ichi Uchida and Hideto Yanagihara, "Process gas dependence of the spin Peltier effect in Pt/Fe₃O₄ hybrid structures", Appl. Phys. Express 15, 013004 (2022).
• Yu-Xuan Wang, Xin-Yue Zhang, Chunhua Li, Xiaohan Yao, Ruihuan Duan, Thomas Graham, Zheng Liu, Fazel Tafti, David Broido, Ying Ran, Brian B. Zhou, "Visualizing the thermoelectric origin of photocurrent flow in anisotropic semimetals", arXiv:2203.17176.
• Yongchao Rao, C. Y. Zhao, Shenghong Ju, "High thermoelectric performance in metastable phase of silicon: a first-principles study", arXiv:2203.16613.

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• R. Burcea, J.-F. Barbot, P.-O. Renault, D. Eyidi, T. Girardeau, M. Marteau, F. Giovannelli, A. Zenji, J-M. Rampnoux, S. Dilhaire, P. Eklund, A. Le Febvrier, "Influence of implantation induced defects on the thermoelectric properties of ScN", arXiv:2203.13227.
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• Jadupati Nag, Deepika Rani, Durgesh Singh, R. Venkatesh, Bhawna Sahni, A. K. Yadav, S. N. Jha, D. Bhattacharyya, P. D. Babu, K. G. Suresh, Aftab Alam, "CoFeVSb: A Promising Candidate for Spin Valve and Thermoelectric Applications", arXiv:2111.14081.
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• Kevin Marc Seja, Louhane Jacob, Tomas Löfwander, "Thermopower and thermophase in a d-wave superconductor", arXiv:2111.10440.

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• Anooja Jayaraj, Ilaria Siloi, Marco Fornari, Marco Buongiorno Nardelli, "Relaxation time approximations in PAOFLOW 2.0", arXiv:2111.09274.

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• Hind Alqurashi, Raad Haleoot, Bothina Hamad, "First-principles investigations of the electronic, magnetic and thermoelectric properties of VTiRhZ (Z= Al, Ga, In) Quaternary Heusler Alloys", arXiv:2111.06915.

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• Rajkumar Modak, Masayuki Murata, Dazhi Hou, Asuka Miura, Ryo Iguchi, Bin Xu, Rulei Guo, Junichiro Shiomi, Yuya Sakuraba, Ken-ichi Uchida, "Phase-transition-induced giant Thomson effect for thermoelectric cooling", arXiv:2111.02707.

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• Amit Chanda, Noah Schulz, Christian Holzmann, Johannes Seyd, Manfred Albrecht, Manh-Huong Phan, Hari Srikanth, "Scaling of the thermally induced sign inversion of longitudinal spin Seebeck effect in a compensated ferrimagnet: Role of magnetic anisotropy", arXiv:2111.01379.

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• Sachin Verma, Ajay, "Non-equilibrium thermoelectric transport through normal metal-Quantum dot-Superconductor hybrid system in the Coulomb blockade regime", arXiv:2111.00817.
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• Niraj Kumar Singh, Ankit Kashyap, Ajay Soni, "Ultralow Thermal Conductivity and Thermoelectric Properties of Bi₄GeTe₇ with an Intrinsic van der Waal Heterostructure", arXiv:2110.14903.

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• Dong Chen, Bin He, Mengyu Yao, Yu Pan, Haicheng Lin, Walter Schnelle, Yan Sun, Johannes Gooth, Louis Taillefer, Claudia Felser, "Anomalous thermoelectric effects and quantum oscillations in the kagome metal CsV₃Sb₅", arXiv:2110.13085.
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• Mukesh K. Choudhary, P. Ravindran, "First principle design of new thermoelectrics from TiNiSn based pentanary alloys based on 18 valence electron rule", arXiv:2110.09827.

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• Ravindra G Bhardwaj, Anand Katailiha, Paul C. Lou, Ward P. Beyermann, Sandeep Kumar, "Topological phonons in an inhomogeneously strained silicon-4: Large spin dependent thermoelectric response and thermal spin transfer torque due to topological electronic magnetism of phonons", arXiv:2110.04939.

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• Yuhan Gan, Wei Xia, Long Zhang, Kunya Yang, Xinrun Mi, Aifeng Wang, Yisheng Chai, Yanfeng Guo, Xiaoyuan Zhou, Mingquan He, "Magneto-Seebeck effect and ambipolar Nernst effect in CsV3Sb5 superconductor", arXiv:2110.00289.

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• Hikaru Horii , Manaho Matsubara, Kenji Sasaoka , Takahiro Yamamoto, and Hidetoshi Fukuyama, "Optimization of Thermoelectric Power Factor of Bilayer Graphene by Vertical Electric Field", J. Phys. Soc. Jpn. 90, 104711 (2021).

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• Rabeb Ben Hassen, Laurent Canale, Zouhour Araoud, Georges Zissis, "Feasibility study of thermal losses conversion into Light for High Power LEDs using thermoelectric modules", arXiv:2109.05900.

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• Mahdi Asgari, Dominique Coquillat, Guido Menichetti, Valentina Zannier, Nina Dyakonova, Wojciech Knap, Lucia Sorba, Leonardo Viti, Miriam Serena Vitiello, "Quantum-dot single-electron transistor as thermoelectric quantum detectors at terahertz frequencies", arXiv:2109.04948.

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• Naoki Sato, Pei Se Gan, Naohito Tsujii and Takao Mori, "Effect of microstructure on lattice thermal conductivity of thermoelectric chalcopyrite CuFeS₂: experimental and computational studies", Appl. Phys. Express 14, 087002 (2021).

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• Akitoshi Nakano, Ai Yamakage, Urara Maruoka, Hiroki Taniguchi, Yukio Yasui, Ichiro Terasaki, "Giant Peltier Conductivity in an Uncompensated Semimetal Ta₂PdSe₆", arXiv:2109.02190.

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• Arup Kumar Paul, Ayan Ghosh, Souvik Chakraborty, Ujjal Roy, Ranit Dutta, K. Watanabe, T. Taniguchi, Animesh Panda, Adhip Agarwala, Subroto Mukerjee, Sumilan Banerjee, Anindya Das, "Interaction driven giant thermopower in magic-angle twisted bilayer graphene", arXiv:2109.00361.

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• Andrea Gemma, Bernd Gotsmann, "A roadmap for molecular thermoelectricity", arXiv:2108.13705.
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• Arzena Khatun, Shamim Sk, Sudhir K. Pandey, "Understanding the Seebeck coefficient of LaNiO₃ compound in the temperature range 300-620 K", arXiv:2108.09969.

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• S. Ihnatsenka, "Model of the thermoelectric properties of anisotropic organic semiconductors", arXiv:2108.06097.
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• Hiroyasu Matsuura, Masao Ogata, Takao Mori, Ernst Bauer, "Theory of Huge Thermoelectric Effect Based on Magnon Drag Mechanism: Application to Thin-Film Heusler Alloy", arXiv:2108.01880.
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• Kavita Yadav, Saurabh Singh, Tsunehiro Takeuchi, K. Mukherjee, "Optical phonon modes assisted thermal conductivity in p-type ZrIrSb Half-Heusler alloy: A combined experimental and computational study", arXiv:2108.00210.

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• Muthusamy Omprakash, Saurabh Singh, Keisuke Hirata, Kentaro Kuga, Santhanakrishnan Harish, Masaru Shimomura, Masahiro Adachi, Yoshiyuki Yamamoto, Masaharu Matsunami, Tsunehiro Takeuchi, "Synergetic enhancement of power factor and suppression of lattice thermal conductivity via electronic structure modification and nanostructuring on Ni and B co-doped p-type Si-Ge alloy", arXiv:2107.13778.
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• Harish K. Singh, Ilias Samathrakis, Chen Shen, Hongbin Zhang, "Giant anomalous Hall and anomalous Nernst Conductivities in Antiperovskites and their Tunability via Magnetic Fields", arXiv:2107.13496.

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• ysol Ibna Abbas, Aichi Yamashita, Kazuhisa Hoshi, Ryosuke Kiyama, Md. Riad Kasem, Yosuke Goto and Yoshikazu Mizuguchi, "Investigation of lattice anharmonicity in thermoelectric LaOBiS_2xSe_x through Grneisen parameter", Appl. Phys. Express 14, 071002 (2021).
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• M. Manikandan, A. Ghosh, R. Mahendiran, "Anomalous Nernst thermopower and giant magnetostriction in microwave synthesized La_0.5Sr_0.5CoO₃", arXiv:2107.11535.

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• Yingtao Wang, Xian Zhang, "On the Role of Crystal Defects on the Lattice Thermal Conductivity of Monolayer WSe₂ (P63/mmc) Thermoelectric Materials by DFT Calculation", arXiv:2107.10376.
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• Zainab Gholami, Farhad Khoeini, "Vacancy tuned thermoelectric properties and high spin filtering performance in graphene/silicene heterostructures", arXiv:2107.08240.
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• Leonie Gomell, Tobias Haeger, Moritz Roscher, Hanna Bishara, Ralf Heiderhoff, Thomas Riedl, Christina Scheu, Baptiste Gault, "Microstructure manipulation by laser-surface remelting of a full-Heusler compound to enhance thermoelectric properties", arXiv:2107.07327.

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• Jyesta M. Adhidewata, Ahmad. R. T. Nugraha, Eddwi H. Hasdeo, Patrice Estelle, Bobby E. Gunara, "Thermoelectric properties of semiconducting materials with parabolic and pudding-mold band structures", arXiv:2107.06826.
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• N. N. Orlova, A. V. Timonina, N. N. Kolesnikov, E. V. Deviatov, "Thermoelectric response as a tool to observe electrocaloric effect in a thin conducting ferroelectric SnSe flake", Phys Rev B 104 045304 (2021) [arXiv:2107.06138].

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• Yuichiro Kurokawa, Masahiro Fujimoto, Yuki Hamada, Hiromi Yuasa, "Large anomalous Nernst effect in non-crystalline Gd-Fe ferrimagnetic alloy films for flexible thermoelectric applications", arXiv:2107.05215.
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• Ashutosh Kumar, Artur Kosonowski, Karol Wolski, Szczepan Zapotoczny, Krzysztof Wojciechowski, "Synergistic effect of workfunction and acoustic impedance mismatch for improved thermoelectric performance in GeTe/WC composite", arXiv:2107.03803.

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• Anderson S. Chaves, Daniel T. Larson, Efthimios Kaxiras, Alex Antonelli, "Microscopic origin of the excellent thermoelectric performance in n-doped SnSe", arXiv:2107.02957.

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• Nahual Sobrino, Florian Eich, Gianluca Stefanucci, Roberto D'Agosta, Stefan Kurth, "Thermoelectric transport within density functional theory", arXiv:2107.01940 [Phys. Rev. B 104, 125115 (2021)].
• Yadong Han, Junhong Yu, Hang Zhang, Fang Xu, Kunlin Peng, Xiaoyuan Zhou, Liang Qiao, Hiromu Matsumoto, Tsukasa Maruhashi, Oleg V. Misochko, Kazutaka G. Nakamura, Qiang Wu, Jianbo Hu, "Photo-induced switch of point-group symmetry in SnSe: nonequilibrium perspective for thermoelectrics", arXiv:2107.01576.

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• Shailja Sharma, C. S. Yadav, "Anisotropic Upper Critical Field, Seebeck and Nernst Coefficient in Nb_0.20Bi₂Se₃ Topological Superconductor", arXiv:2107.00432.
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• Shamim Sk, Abhishek Pandey, Sudhir K. Pandey, "Instrument for simultaneous measurement of Seebeck coefficient and thermal conductivity in the temperature range 300-800 K with python interfacing", arXiv:2106.15895.

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• Conor McConnell, Ahsan Nazir, "Strong coupling in thermoelectric nanojunctions: a reaction coordinate framework", arXiv:2106.14799.

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• M. A. Correa, M. Gamino, A. S. de Melo, M. V. P. Lopes, J. G. S. Santos, A. L. R. Souza, S. A. N. Franca Junior, A. Ferreira, S. Lanceros-Mendez, F. Vaz, F. Bohn, "Unraveling the role of the magnetic anisotropy on thermoelectric response: a theoretical and experimental approach", arXiv:2106.05063.
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• C. Wang and G. Ding, "The promising thermoelectric performance of newly synthesized bulk SrCu₂GeSe₄ and BaCu₂SnSe₄ associated with superior band degeneracy", Appl. Phys. Express 14, 045502 (2021).

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• M. A. Manya, G. B. Martins, M. S. Figueira, "Spin-orbit coupling effects over thermoelectric transport properties in quantum dots", arXiv:2106.02184.
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• A. Ross, R. Lebrun, M. Evers, A. Deak, L. Szunyogh, U. Nowak, M. Kläui, "Exceptional sign changes of the non-local spin Seebeck effect in antiferromagnetic hematite", arXiv:2105.13653.

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• Junya Endo, Hiroyasu Matsuura, Masao Ogata, "Theory of Paramagnon Drag in Thermoelectric Effect of Hubbard Model", arXiv:2105.12471.

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• Hiroto Nakamura, Susumu Minami, Takahiro Tomita, Agustinus Agung Nugroho, Satoru Nakatsuji, "Logarithmic Criticality in Transverse Thermoelectric Conductivity of the Ferromagnetic Topological Semimetal CoMnSb", arXiv:2105.12098.

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• Sangjun Park, Bo Han, Caroline Boule, Daniel Paget, Alistair Rowe, Fausto Sirotti, Takashi Taniguchi, Kenji Watanabe, Cedric Robert, Laurent Lombez, Bernhard Urbaszek, Xavier Marie, Fabian Cadiz, "Imaging Seebeck drift of excitons and trions in MoSe₂ monolayers", arXiv:2105.09617.

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• Peter Wölfle, Timothy Ziman, "Theory of record thermopower near a finite temperature magnetic phase transition: IrMn", arXiv:2105.08981.

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• Xiao Li, Jinluo Cheng, Lifa Zhang, Jun Zhou, "Chiral Phonon activated Spin Seebeck Effect", arXiv:2105.08485.
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• Keigo Tsuruda, Kento Nakagawa, Masayuki Ochi, Kazuhiko Kuroki, Masashi Tokunaga, Hiroshi Murakawa, Noriaki Hanasaki, Hideaki Sakai, "Enhancing thermopower and Nernst signal of high-mobility Dirac carriers by Fermi level tuning in the layered magnet EuMnBi₂", arXiv:2105.05816 [Adv. Funct. Mater. 2021, 2102275].

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• Muhammad Gaffar, Sasfan Arman Wella, Eddwi Hesky Hasdeo, "Does Topology Enhance Thermoelectric Efficiency? A Case Study in Bismuthene", arXiv:2105.05211.

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• Anton Kapustin, Lev Spodyneiko, "Microscopic formulas for thermoelectric transport coefficients in lattice systems", arXiv:2105.01626.
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• Kasper Tolborg, Bo B. Iversen, "Chemical bonding origin of the thermoelectric power factor in Half-Heusler semiconductors", arXiv:2104.11281.

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• T. Asaba, V. Ivanov, S. M. Thomas, S. Y. Savrasov, J. D. Thompson, E. D. Bauer, F. Ronning, "Colossal anomalous Nernst effect in a correlated noncentrosymmetric kagome ferromagnet", Science Advances 7 (13) eabf1467 (2021)[arXiv:2104.09060].

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• Yaqiong Zhong, Xiaojuan Hu, Debalaya Sarker, Qingrui Xia, Liangliang Xu, Chao Yang, Zhong-Kang Han, Sergey V. Levchenko, Jiaolin Cui, "Data analytics accelerates the experimental discovery of new thermoelectric materials with extremely high figure of merit", arXiv:2104.08033.

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• Hermann Freire, Ipsita Mandal, "Thermoelectric and thermal properties of the weakly disordered non-Fermi liquid phase of Luttinger semimetals", arXiv:2104.07459.

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• Victor H. Ortiz, Michael J. Gomez, Yawen Liu, Mohammed Aldosary, Jing Shi, Richard B. Wilson, "Ultrafast Measurements of the Interfacial Spin Seebeck Effect in Au and Rare-Earth Iron Garnet Bilayers", arXiv:2104.05075.

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• Abdulkareem Alasli, Asuka Miura, Ryo Iguchi, Hosei Nagano, Ken-ichi Uchida, "High-throughput imaging measurements of thermoelectric figure of merit", arXiv:2104.04173.

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• A. Carmel Mary Esther, G. Mohan Muralikrishna, Bonnie J. Tyler, Heinrich F. Arlinghaus, Sergiy V. Divinski, Gerhard Wilde, "Interface-Driven Thermo-Electric Switching Performance of VO+ Diffused Soda-Lime Glass", arXiv:2101.03330.

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• Manaho Matsubara, Kenji Sasaoka, Takahiro Yamamoto, Hidetoshi Fukuyama, "Optimal Thermoelectric Power Factor of Narrow-Gap Semiconducting Carbon Nanotubes with Randomly Substituted Impurities", J. Phys. Soc. Jpn. 90, 044702 (2021)[arXiv:2101.11951].

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• Jianyun Cao, Dursun Ekren, Yudong Peng, Feridoon Azough, Ian A. Kinloch, Robert Freer, "Modulation of Charge Transport at Grain Boundaries in SrTiO₃: Toward a High Thermoelectric Power Factor at Room Temperature", arXiv:2103.16919.

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• Van-Truong Tran, Alessandro Cresti, "Thermoelectric properties of in-plane 90⁰-bent graphene nanoribbons with nanopores", arXiv:2103.15427.
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• Antonella Masci, Elisabetta Dimaggio, Giovanni Pennelli, "On-chip all-silicon thermoelectric device", arXiv:2103.14520.
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• Adithya Kommini, Zlatan Aksamija, "Very High Thermoelectric Power Factor Near Magic Angle in Twisted Bilayer Graphene", arXiv:2103.14093.
• Gianmichele Blasi, Fabio Taddei, Liliana Arrachea, Matteo Carrega, Alessandro Braggio, "Nonlocal thermoelectric engines in hybrid topological Josephson junctions", arXiv:2103.14394.

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• Tiema Qian, Joshua Mutch, Lihua Wu, Preston Went, Jihui Yang, Jiun-Haw Chu, "Apparatus Design for Measuring of the Strain Dependence of the Seebeck Coefficient of Single Crystals", Review of Scientific Instruments. 91, 023902 (2020) [arXiv:2103.13518].

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• Wang Peipei, Cho Chang-woo, Tang Fangdong, Wang Peng, Zhang Wenjie, He Mingquan, Gu Genda, Wu Xiaosong, Shao Yonghong, Zhang Liyuan, "Large Nernst effect and field enhanced transversal ZT in ZrTe₅", Phys. Rev. B 103, 045203 (2021)[arXiv:2103.13069].

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• Kh. G. Nazaryan, M. V. Feigelman, "Conductivity and thermoelectric coefficients of doped SrTiO₃ at high temperatures", arXiv:2103.11425.

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• Nikolaj Roth, Jonas Beyer, Karl F. F. Fischer, Kaiyang Xia, Tiejun Zhu, Bo Brummerstedt Iversen, "Tuneable local order in thermoelectric crystals", arXiv:2103.08543.
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• F. N. Kholid, D. Hamara, M. Terschanski, F. Mertens, D. Bossini, M. Cinchetti, L. McKenzie-Sell, J. Patchett, D. Petit, R. Cowburn, J. Robinson, J. Barker, C. Ciccarelli, "Temperature dependence of the interface spin Seebeck effect", arXiv:2103.07307.

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• Natalya S. Fedorova, Andrea Cepellotti, Boris Kozinsky, "Anomalous thermoelectric transport phenomena from interband electron-phonon scattering", arXiv:2103.06558.
• Takuya Kamijima, Shun Otsubo, Yuto Ashida, Takahiro Sagawa, "Higher-order Efficiency Bound and Its Application to Nonlinear Nano-thermoelectrics", arXiv:2103.06554.

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• M. Horikawa, X. Fang and W. Kubo, "Metamaterial perfect absorber-enhanced plasmonic photo-thermoelectric conversion", Appl. Phys. Express 13, 082006 (2020).
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• Mengmeng Xi, Rongqian Wang, Jincheng Lu, Tengyun Chen, Jian-Hua Jiang, "Coulomb thermoelectric drag in four-terminal mesoscopic quantum transport", arXiv:2103.04141.

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• Dorothea Scheunemann, Vishnu Vijayakumar, Huiyan Zeng, Pablo Durand, Nicolas Leclerc, Martin Brinkmann, Martijn Kemerink, "Rubbing and Drawing: Generic Ways to Improve the Thermoelectric Power Factor of Organic Semiconductors?", Adv. Electron. Mater. 2020, 6, 2000218[arXiv:2103.03814].
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• Akitoshi Nakano, Urara Maruoka, Fumiaki Kato, Hiroki Taniguchi, Ichiro Terasaki, "Room Temperature Thermoelectric Properties of Isostructural Selenides Ta₂PdS₆ and Ta₂PdSe₆", J. Phys. Soc. Jpn. 90, 033702 (2021)[arXiv:2101.08468].
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• H. Sakabayashi, R. Okazaki, "Crossover from itinerant to localized states in the thermoelectric oxide [Ca₂CoO₃]_0.62[CoO₂]", arXiv:2102.13250.
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• Alexander Fernandez Scarioni, Craig Barton, Hector Corte-Leon, Sibylle Sievers, Xiukun Hu, Fernando Ajejas, William Legrand, Nicolas Reyren, Vincent Cros, Olga Kazakova, Hans W. Schumacher, "Thermoelectric signature of individual skyrmions", Phys. Rev. Lett. 126, 077202 (2021)[arXiv:2001.10251].

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• Yilin Wong, Giovanni Zocchi, "Thermoelectric effects at a Germanium-electrolyte interface: measuring 100 nK temperature oscillations at room temperature", arXiv:2102.10489.

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• Weinan Zhou, Keisuke Masuda, Yuya Sakuraba, "Origin of negative anomalous Nernst thermopower in Mn-Ga ordered alloys", arXiv:2102.08625.

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• L. Fruchter, V. Brouet, "The "dark phase" in Sr₂Ir_1−xRh_xO₄ revealed by Seebeck and Hall measurements", arXiv:2102.07517.

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• Rajkumar Modak, Kazuki Goto, Shigenori Ueda, Yoshio Miura, Ken-ichi Uchida, Yuya Sakuraba, "Combinatorial tuning of electronic structure and thermoelectric properties in Co₂MnAl_1-xSi_x Weyl semimetals", arXiv:2102.06412.

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• Ken-ichi Uchida, Weinan Zhou, Yuya Sakuraba, "Transverse thermoelectric generation using magnetic materials", arXiv:2102.04183.

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• Mohsen Rezaei, Hossein Karbaschi, M. Amini, M. Soltani, Gholamreza Rashedi, "Thermoelectric properties of armchair phosphorene nanoribbons in the presence of vacancy-induced impurity band", arXiv:2102.02039.
• Soumya Biswas, Saurabh Singh, Shubham Singh, Shashwata Chattopadhyay, K. K. H. De Silva, M. Yoshimura, J. Mitra, Vinayak Kamble, "Selective Enhancement in Phonon Scattering leads to High Thermoelectric Figure of Merit in ZnO -- Graphene Oxide Core-shell Nanohybrids", arXiv:2102.01896.

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• Yonglan Hu, Tie Yang, Dengfeng Li, Guangqian Ding, Chaochao Dun, Dandan Wu, Xiaotian Wang, "Origins of minimized lattice thermal conductivity and enhanced thermoelectric performance in WS₂/WSe₂ lateral superlattice", arXiv:2102.00578.

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• Eui-Cheol Shin, Jae-Hyeon Ko, Ho-Ki Lyeo, Yong-Hyun Kim, "Thermoelectric physics of triboelectric charging and series", arXiv:2101.12485.

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• Koichi Kitahara and Kaoru Kimura, "Interband Contribution to Thermoelectric Properties of Al-Cu-Ir Quasicrystalline Approximant", Materials Transactions, Vol.62 No.02 (2021) pp.149-154.
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• Shivprasad S. Shastri, Sudhir K. Pandey, "Studying the lifetime of charge and heat carriers due to intrinsic scattering mechanisms in FeVSb half-Heusler thermoelectric", arXiv:2101.09555.

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• Jayanta Bera, Atanu Betal, Satyajit Sahu, "Phonon Coupled Scattering Caused Ultralow Lattice Thermal Conductivity and Its Role in The Remarkable Thermoelectric Performance of Newly Predicted SiS₂ and SiSe₂ monolayers", arXiv:2101.08977.

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• Kaoru Yamamoto, Ryo Iguchi, Asuka Miura, Weinan Zhou, Yuya Sakuraba, Yoshio Miura, Ken-ichi Uchida, "Performance analysis of Seebeck-driven transverse thermoelectric generation based on phenomenological calculation", arXiv:2101.08443.
• Jiang Cao, orde Dangic, Jose D. Querales-Flores, Stephen Fahy, Ivana Savic, "Prediction of large thermoelectric figure of merit in n-type PbTe driven near the soft-mode phase transition via lattice expansion", arXiv:2101.08124.

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• Tianqi Deng, Jose Recatala-Gomez, Masato Ohnishi, D. V. Maheshwar Repaka, Pawan Kumar, Ady Suwardi, Anas Abutaha, Iris Nandhakumar, Kanishka Biswas, Michael B. Sullivan, Gang Wu, Junichiro Shiomi, Shuo-Wang Yang, Kedar Hippalgaonkar, "Electronic transport descriptors for the rapid screening of thermoelectric materials", arXiv:2101.03340.

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• Neophytos Neophytou, Vassilios Vargiamidis, Samuel Foster, Patrizio Graziosi, Laura de Sousa Oliveira, Dhritiman Chakraborty, Zhen Li, Mischa Thesberg, Hans Kosina, Nick Bennett, Giovanni Pennelli, Dario Narducci, "Hierarchically nanostructured thermoelectric materials: Challenges and opportunities for improved power factors", European Physical Journal B, 93, 213, 2020 [arXiv:2012.12149].

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• Yuma Yoshikawa, Taichi Wada, Yoshihiko Okamoto, Yasuhiro Abe, Koshi Takenaka, "Large Thermoelectric Power Factor in Whisker Crystals of Solid Solutions of the One-Dimensional Tellurides Ta₄SiTe₄ and Nb₄SiTe₄", Appl. Phys. Express 13, 125505 (2020) [arXiv:2011.10162].

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• Munish Sharma, "Stability, Tunneling Characteristics and Thermoelectric Properties of TeSe₂ allotropes", arXiv:2012.03871.

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• Junsoo Park, Max Dylla, Yi Xia, Max Wood, G. Jeffrey Snyder, Anubhav Jain, "When Band Convergence is Not Beneficial for Thermoelectrics", arXiv:2012.02272.

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• Vikash Sharma, Gunadhor Singh Okram, Divya Verma, Niranjan Prasad Lalla, Yung-Kang Kuo, "Ultralow Thermal Conductivity and Large Figure of Merit in Low-Cost and Nontoxic Core-Shell Cu@Cu2O Nanocomposites", arXiv:2012.00411.

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• Nzar Rauf Abdullah, Hunar Omar Rashid, Mohammad T. Kareem, Chi-Shung Tang, Andrei Manolescu, Vidar Gudmundsson, "Effects of bonded and non-bonded B/N codoping of graphene on its stability,\break interaction energy, electronic structure, and power factor", arXiv:2002.11377.

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• Daigo Ohki, Yukiko Omori, Akito Kobayashi, "Effect of Coulomb Interaction on Seebeck Coefficient of Organic Dirac Electron System α-(BEDT-TTF)₂I₃", arXiv:2002.05875.

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• Aniket Singha, "Enhanced thermoelectric performance actuated by inelastic processes in the channel region", arXiv:2001.10610.
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• Ransell D'Souza, Sugata Mukherjee, Sohail Ahmad, "Strain induced large enhancement of thermoelectric figure-of-merit (ZT - 2) in transition metal dichalcogenide monolayers ZrX₂ (X= S, Se, Te)", Journal of Applied Physics 126, 214302 (2019) [arXiv:2001.10514].
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• Vikash Sharma, Gunadhor Singh Okram, Yung-Kang Kuo, "Metal to insulator transition, colossal Seebeck coefficient and ultralow thermal conductivity in solution-processed monodispersed nickel nanoparticles", arXiv:2001.09708.

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• E. Suprayoga, W. B. K. Putri, K. Singsoog, S. Paengson, M. Y. Hanna, A. R. T. Nugraha, D. R. Munazat, B. Kurniawan, M. Nurhuda, T. Seetawan, E. H. Hasdeo, "Characterization of electron and phonon transports in Bi-doped CaMnO₃ for thermoelectric applications", arXiv:2001.08443.

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• Yu Wu, Congcong Ma, Ke Xu, Ying Chen, Zixuan Lu, Hao Zhang, Hezhu Shao, Heyuan Zhu, Bowen Hou, Zhilai Fang, Rongjun Zhang, "Strong intervalley electron-phonon couplings in monolayer antimonene: revisited studies on the band-convergence stategy to enhance thermoelectricity", arXiv:2001.07499.
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• Daisuke Hayashi, Yusuke Nakai, Haruka Kyakuno, Yasumitsu Miyata, Kazuhiro Yanagi and Yutaka Maniwa, "Temperature dependence of the Seebeck coefficient for mixed semiconducting and metallic single-wall carbon nanotube bundles", Appl. Phys. Express 13, 015001 (2020).
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• Avirup De, Arup Ghosh, Rajesh Mandal, Satishchandra Ogale, and Sunil Nair, "Temperature Dependence of the Spin Seebeck Effect in a Mixed Valent Manganite", Phys. Rev. Lett. 124, 017203 (2020) [arXiv:1905.02527].
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• I. S. Khare, N. J. Szymanski, D. Gall, R. E. Irving, "Electronic, optical and thermoelectric properties of sodium pnictogen chalcogenides: A first principles study", arXiv:2001.00897.

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• Thao T. T. Nguyen, Linh T. Dang, Giang H. Bach, Tung H. Dang, Kien T. Nguyen, Hong T. Pham, Thuat T. Nguyen, Tuyen V. Nguyen, Toan T. Nguyen, Hung Q. Nguyen, "Enhanced thermoelectricity at the ultra-thin film limit", arXiv:1912.11274.

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• Tiantian Jia, Jesus Carrete, Zhenzhen Feng, Shuping Guo, Yongsheng Zhang, Georg K. H. Madsen, "Excellent Thermoelectric Performances of Pressure Synthesized ZnSe₂", arXiv:1912.10603.
• Tiantian Jia, Zhenzhen Feng, Shuping Guo, Xuemei Zhang, Yongsheng Zhang, "Screening Promising Thermoelectric Materials in Binary Chalcogenides through High-Throughput Computations", arXiv:1912.10593.

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• Adel Kara Slimane, Phillipp Reck, Genevieve Fleury, "Simulating time-dependent thermoelectric transport in quantum systems", arXiv:1912.09386.

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• A. Yurgens, "Large responsivity of graphene radiation detectors with thermoelectric readout", arXiv:1912.08489.

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• Peng-Peng Zhang, Shi-Hua Tan, Meng-Qiu Long and Xiao-Fang Peng, "Thermoelectric performance of adenine and porphine", Appl. Phys. Express 12, 125005(2019).
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• Koichi Kitahara, Yoshiki Takagiwa and Kaoru Kimura, "Thermoelectric Properties of Quasicrystalline Approximant in Al-Cu-Ir System", Materials Transactions, Vol.60 No.12 (2019) pp.2490-2498.

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• Gerwin A. R. van Dalum, Andrew K. Mitchell, Lars Fritz, "Wiedemann-Franz law in a non-Fermi liquid and Majorana central charge: Thermoelectric transport in a two-channel Kondo system", arXiv:1912.04919.

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• Sonu Prasad Keshri, Amal Medhi, "High thermoelectric figure of merit of ZrRuTe-based half-Heusler compounds", arXiv:1912.03883.
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• Alexander Kruchkov, Aavishkar Patel, Philip Kim, Subir Sachdev, "Thermoelectric power of Sachdev-Ye-Kitaev islands: Probing Bekenstein-Hawking entropy in quantum matter experiments", arXiv:1912.02835.

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• Kaoru Yamamoto, Keisuke Masuda, Ken-ichi Uchida, Yoshio Miura, "Strain-induced enhancement of the Seebeck effect in magnetic tunneling junctions via interface resonant tunneling: Ab-initio study", arXiv:1912.01207.
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• J. L. Zhang, C. M. Wang, C. Y. Guo, X. D. Zhu, Y. Zhang, J. Y. Yang, Y. Q. Wang, Z. Qu, L. Pi, Hai-Zhou Lu, and M. L. Tian, "Anomalous Thermoelectric Effects of ZrTe5 in and beyond the Quantum Limit", Phys. Rev. Lett. 123, 196602 (2019).
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• Jie Min, Arun K. Sagotra, Claudio Cazorla, "Prediction of large barocaloric effects in thermoelectric superionic materials", arXiv:1911.02138.

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• Markus Kantner, "Generalized Scharfetter-Gummel schemes for electro-thermal transport in degenerate semiconductors using the Kelvin formula for the Seebeck coefficient", arXiv:1911.00377.
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• Zhenyu Pan, Zheng Zhu, Jeffrey J. Urban, Fan Yang, Heng Wang, "Photo-thermoelectric properties and their use in study of transport properties of both carriers from a single bulk sample", arXiv:1910.14661.
• Zhenyu Pan, Zheng Zhu, Jonathon Wilcox, Jeffrey J. Urban, Fan Yang, Heng Wang, "Tackling Challenges in Seebeck Coefficient Measurement of Ultra-High Resistance Samples with an AC Technique", arXiv:1910.14205.
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• Jinsong Xu, W. Adam Phelan, C. L. Chien, "Large anomalous Nernst effect in a van der Waals ferromagnet Fe₃GeTe₂", arXiv:1910.13617.

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• Takumi Yamazaki, Ryo Iguchi, Tadakatsu Ohkubo, Hosei Nagano, Ken-ichi Uchida, "Transient response of spin Peltier effect revealed by lock-in thermoreflectance measurement", arXiv:1910.13165.
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• Byungki Ryu, Jaywan Chung, SuDong Park, "General Efficiency Theory of Thermoelectric Conversion", arXiv:1910.11132.
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• Shamim Sk, Jayashree Pati, R. S. Dhaka, Sudhir K. Pandey, "Exploring the possibility of enhancing the high figure-of-merit ( > 2) of Na_0.74CoO₂ by using combined experimental and theoretical studies", arXiv:1910.10191.
• Akihiko Sekine, Naoto Nagaosa, "Quantum Kinetic Theory of Thermoelectric and Thermal Transport in a Magnetic Field", arXiv:1910.10642.
• Yongming Luo, Changjiang Liu, Hilal Saglam, Yi Li, Wei Zhang, Steven S.-L. Zhang, John E. Pearson, Brandon Fisher, Anand Bhattacharya, Axel Hoffmann, "Distinguishing antiferromagnetic spin sublattices via the spin Seebeck effect", arXiv:1910.10340.

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• T. A. Costi, "Magnetic field dependence of the thermopower of Kondo-correlated quantum dots: Comparison with experiment", Phys. Rev. B 100, 155126 (2019)[arXiv:1910.08785].

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• Changcheng Ma, Jing He, Jingjing Lu, Jie Zhu and Zuoqi Hu, "Impact of scaling on thermoelectric heating process in the reset operation of phase-change memory cells", Jpn. J. Appl. Phys. 58 105003 (2019).

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• Minh-Tuan Dau, Celine Vergnaud, Alain Marty, Cyrille Beigne, Serge Gambarelli, Vincent Maurel, Timothee Journot, Berangere Hyot, Thomas Guillet, Benjamin Grevin, Hanako Okuno, Matthieu Jamet, "The valley Nernst effect in WSe₂", arXiv:1910.08070.

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• Sheng Gao, John Gaskins, Xixiao Hu, Kathleen Tomko, Patrick Hopkins, S. Joseph Poon, "Enhanced Figure of Merit in Bismuth-Antimony Fine-Grained Alloys at Cryogenic Temperatures", arXiv:1910.06648.
• Patrizio Graziosi, Chathurangi Kumarasinghe, Neophytos Neophytou, "Impact of the scattering physics on the power factor of complex thermoelectric materials", arXiv:1910.06628.

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• Max Hirschberger, Leonie Spitz, Taro Nakajima, Takashi Kurumaji, Akiko Kikkawa, Yasujiro Taguchi, Yoshinori Tokura, "Topological Nernst effect of the two-dimensional skyrmion lattice", arXiv:1910.06027.

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• D. N. Sheng, Liang Fu, "Thermoelectric response and entropy of fractional quantum Hall systems", arXiv:1910.04177.

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• Koichi Oyanagi, Takashi Kikkawa, Eiji Saitoh, "Magnetic field dependence of the nonlocal spin Seebeck effect in Pt/YIG/Pt systems at low temperatures", arXiv:1910.04046.

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• Bhawna Sahni, Vikram, Jiban Kangsabanik, Aftab Alam, "Accurate high-throughput screening of I-II-V 8-electron Half-Heusler compounds for renewable-energy applications", arXiv:1910.02984.

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• Alexandre Pourret, Sergei G. Sharapov, Tatsuma D. Matsuda, Georg Knebel, Gertrud Zwicknagl, and Andrey A. Varlamov, "Transport Spectroscopy of the Field Induced Cascade of Lifshitz Transitions in YbRh₂Si₂", J. Phys. Soc. Jpn. 88, 104702 (2019).
• Harukazu Yoshino, Akifumi Hasegawa, Natsuki Kuroda, Manabu Ishikawa, Rika Tanaka, Masatoshi Kozaki, Yoshiaki Nakano, Akihiro Otsuka, and Hideki Yamochi, "Disorder-Enhanced Dimensionless Thermoelectric Figure of Merit zT of Non-stoichiometric Organic Conductor (TTT)₂I_3+delta (delta =< 0.1)", J. Phys. Soc. Jpn. 88, 104708 (2019).

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• Li Fu, Laurent Joly, Samy Merabia, "Giant Thermoelectric Response of Nanofluidic Systems Driven by Water Excess Enthalpy", Phys. Rev. Lett. 123, 138001 (2019)[arXiv:1908.10726].

  ---

• Swapnil Ghodke, Omprakash Muthusamy, Kevin Delime Codrin, Seongho Choi, Saurabh Singh, Dogyun Byeon, Masahiro Adachi, Makoto Kiyama, Takashi Matsuura, Yoshiyuki Yamamoto, Masaharu Matsunami, Tsunehiro Takeuchi, "Distinctive Thermoelectric Properties of Supersaturated Si-Ge-P Compounds: Achieving Figure of Merit ZT > 3.6", arXiv:1909.12476.

  ---

• Gerda Rogl, Michael J. Zehetbauer and Peter F. Rogl, "The Effect of Severe Plastic Deformation on Thermoelectric Performance of Skutterudites, Half-Heuslers and Bi-Tellurides", Materials Transactions, Vol.60, No.10 (2019) pp. 2071.
• Viktor Könye, Masao Ogata, "Thermoelectric transport coefficients of a Dirac electron gas in high magnetic fields", arXiv:1909.11292.

  ---

• Nahual Sobrino, Roberto D'Agosta, Stefan Kurth, "Steady-state density functional theory for thermoelectric effects", arXiv:1909.11019.

  ---

• Gyu-Hyeon Park, Helena Reichlova, Richard Schlitz, Michaela Lammel, Anastasios Markou, Peter Swekis, Philipp Ritzinger, Dominik Kriegner, Jonathan Noky, Jacob Gayles, Yan Sun, Claudia Felser, Kornelius Nielsch, Sebastian T. B. Goennenwein, Andy Thomas, "Thickness dependence of the anomalous Nernst effect and the Mott relation of Weyl-semimetal Co2MnGa thin films", arXiv:1909.10168.

  ---

• Simon Thebaud, Christophe Adessi, Georges Bouzerar, "Investigating the high-temperature thermoelectric properties of n-type rutile TiO₂", arXiv:1909.08554.

  ---

• Daichi Hirobe, Masahiro Sato, Masato Hagihala, Yuki Shiomi, Takatsugu Masuda, Eiji Saitoh, "Magnon Pairs and Spin-Nematic Correlation in the Spin-Seebeck Effect", Phys. Rev. Lett. 123, 117202 (2019)[arXiv:1908.08701].
• G. Jaliel, R. K. Puddy, R. Sanchez, A. N. Jordan, B. Sothmann, I. Farrer, J. P. Griffiths, D. A. Ritchie, and C. G. Smith, "Experimental Realization of a Quantum Dot Energy Harvester", Phys. Rev. Lett. 123, 117701 (2019).

  ---

• Laura de Sousa Oliveira, Vassilios Vargiamidis, Neophytos Neophytou, "Modelling thermoelectric performance in nanoporous nanocrystalline silicon", arXiv:1909.06234.

  ---

• Bowen Ma, Benedetta Flebus, Gregory A. Fiete, "Longitudinal Spin Seebeck effect in Pyrochlore Iridates with Bulk and Interfacial Dzyaloshinskii-Moriya interaction", arXiv:1909.05450.

  ---

• Jonathan Tseng, Xuan Luo, "First-principles investigation of low-dimension MSe₂ (M = Ti, Hf, Zr) configurations as promising thermoelectric materials", arXiv:1909.03189.

  ---

• Xiaodong Zhou, Jan-Philipp Hanke, Wanxiang Feng, Stefan Bluegel, Yuriy Mokrousov, Yugui Yao, "Giant Anomalous Nernst Effect in Noncollinear Antiferromagnetic Mn-based Antiperovskite Nitrides", arXiv:1908.11183.

  ---

• Subash Kattel, Joseph R. Murphy, David Ellsworth, Jinjun Ding, Tao Liu, Peng Li, Mingzhong Wu, William D. Rice, "Broadband Optical Detection using the Spin Seebeck Effect", arXiv:1908.10472.

  ---

• Vikash Sharma, Gunadhor Singh Okram, "Electrical transport and thermoelectric properties of silver nanoparticles", arXiv:1908.07339.

  ---

• Qianheng Du, Milinda Abeykoon, Yu Liu, G. Kotliar, and C. Petrovic, "Low-Temperature Thermopower in CoSbS", Phys. Rev. Lett. 123, 076602 (2019).

  ---

• Naohiro Ito, Takashi Kikkawa, Joseph Barker, Daichi Hirobe, Yuki Shiomi, Eiji Saitoh, "Spin Seebeck effect in the layered ferromagnetic insulators CrSiTe₃ and CrGeTe₃", Phys. Rev. B100, 060402(R)(2019)[arXiv:1908.05807].
• Soumya Biswas, Aditya S Dutt, Nirmal Sabastian, Vinayak B Kamble, "Simple, Reversible Gradient Seebeck Coefficient Measurement System for 300-600K", arXiv:1908.05636.
• Yuto Ashida, Takahiro Sagawa, "Learning the best thermoelectric nanoscale heat engines through evolving network topology", arXiv:1908.0486.
• Pankaj Priyadarshi, Abhishek Sharma, Swarnadip Mukherjee, Bhaskaran Muralidharan, "Superlattice design for optimal thermoelectric generator performance", Journal of Physics D: Applied Physics 185301 (2018)[arXiv:1908.04547].

  ---

• A. J. Hong, C. L. Yuan, J. M. Liu, "Quaternary compounds Ag₂XYSe₄ (X=Ba, Sr; Y=Sn, Ge) as novel potential thermoelectric materials", arXiv:1908.02305.
• C. A. Perroni, V. Cataudella, "On the role of local many-body interactions on the thermoelectric properties of fullerene junctions", arXiv:1908.02665.

  ---

• Vassilios Vargiamidis, Mischa Thesberg, Neophytos Neophytou, "Theoretical model for the Seebeck coefficient in superlattice materials with energy relaxation", Journal of Applied Physics, 126[5], 055105 (2019)[arXiv:1908.01090].

  ---

• Junsen Xiang, Sile Hu, Meng Lyu, Wenliang Zhu, Chaoyang Ma, Ziyu Chen, Frank Steglich, Genfu Chen, Peijie Sun, "Large transverse thermoelectric figure of merit in a Dirac semimetal", arXiv:1908.00184.
• D. B. Karki, Mikhail N. Kiselev, "Nonlinear Seebeck effect of SU(N) Kondo impurity", arXiv:1908.00415.

  ---

  [先頭]
• Jyoti Krishna, Mukesh Sharma, T. Maitra, "Anisotropic thermoelectric properties of EuCd₂As₂ : An Ab-initio study", arXiv:1907.13446.

  ---

• Yanfeng Ge, Wenhui Wan, Yulu Ren, Yong Liu, "Large thermoelectric power factor of high-mobility 1T'' phase of transition-metal dichalcogenides", arXiv:1907.12037.

  ---

• Yoshihiko Okamoto, Yuma Yoshikawa, Taichi Wada, Koshi Takenaka, "Hole-Doped M₄SiTe₄ (M = Ta, Nb) as an Efficient p-Type Thermoelectric Material for Low-Temperature Applications", Appl. Phys. Lett. 115, 043901 (2019)[arXiv:1907.10254].

  ---

• J. Heidrich, D. Beckmann, "Nonlocal thermoelectric effects in high-field superconductor-ferromagnet hybrid structures", arXiv:1907.08441.

  ---

• Daisuke Hayashi, Yusuke Nakai, Haruka Kyakuno, Naoya Hongo, Yasumitsu Miyata, Kazuhiro Yanagi and Yutaka Maniwa, "Thermoelectric properties of single-wall carbon nanotube networks", Jpn. J. Appl. Phys. 58 075003 (2019).
• Masanobu Miyata, Taisuke Ozaki and Mikio Koyano, "Transport properties of rocksalt-type cluster sulfides V4GeS8 and Mn substitution effect", Jpn. J. Appl. Phys. 58 061008 (2019).

  ---

• A. I. Bezuglyj, V. A. Shklovskij, V. V. Kruglyak, R. V. Vovk, "Spin Seebeck effect and phonon energy transfer in heterostructures containing layers of a normal metal and a ferromagnetic insulator", arXiv:1907.05739.
• Linchao Ding, Jahyun Koo, Liangcai Xu, Xiaokang Li, Xiufang Lu, Lingxiao Zhao, Qi Wang, Qiangwei Yin, Hechang Lei, Binghai Yan, Zengwei Zhu, Kamran Behnia, "Intrinsic anomalous Nernst effect amplified by disorder in a half-metallic semimetal", arXiv:1907.05565.

  ---

• Sebastien Lemal, Fabio Ricci, Daniel I. Bilc, Matthieu J. Verstraete, Philippe Ghosez, "Magnetic instabilities in doped Fe₂YZ full-Heusler thermoelectric compounds", arXiv:1907.04267.
• Manuel Zingl, Gernot J. Kraberger, Markus Aichhorn, "Thermopower of the electron-doped manganese pnictide LaMnAsO", arXiv:1907.04173.

  ---

• Vitaly. S. Proshchenko, Manoj Settipalli, Artem K. Pimachev, Sanghamitra Neogi, "Modulation of Semiconductor Superlattice Thermopower\\ Through Symmetry and Strain", arXiv:1907.03461.

  ---

• Kristian Berland, Nina Shulumba, Olle Hellman, Clas Persson, Ole Martin Lovvik, "Thermoelectric transport trends in group 4 half-Heusler alloys", arXiv:1907.02845.
• Pascal Gehring, Martijn van der Star, Charalambos Evangeli, Jennifer J. Le Roy, Lapo Bogani, Oleg V. Kolosov, Herre S. J. van der Zant, "Efficient heating of single-molecule junctions for thermoelectric studies at cryogenic temperatures", arXiv:1907.02815.

  ---

• Jiawei Zhang, Bo Brummerstedt Iversen, "Fermi surface complexity, effective mass, and conduction band alignment in n-type thermoelectric Mg₃Sb_2-xBi_x from first principles calculations", arXiv:1907.02236.

  ---

• Hangbo Zhou, Gang Zhang, Jian-Sheng Wang, Yong-Wei Zhang, "Three-terminal interface as a thermoelectric generator beyond Seebeck effect", arXiv:1907.01140.
• Ryota Arakaki and Takahide Oya, "Development and evaluation of "thermoelectric power-generating thread" using carbon nanotube-coated threads", Jpn. J. Appl. Phys. 58 SDDD06 (2019).
• Naoto Ogi and Hironori Tohmyoh, "The effect of oxidation temperature on the thermoelectric performance of a plate-type thermoelectric power generator", Jpn. J. Appl. Phys. 58 SDDL05 (2019).

  ---

• Felix Keidel, Sun-Yong Hwang, Björn Trauzettel, Björn Sothmann, Pablo Burset, "On-demand thermoelectric generation of equal-spin Cooper pairs", arXiv:1907.00965.

  ---

• Hiroyasu Matsuura, Hideaki Maebashi, Masao Ogata, and Hidetoshi Fukuyama, "Effect of Phonon Drag on Seebeck Coefficient Based on Linear Response Theory: Application to FeSb₂", J. Phys. Soc. Jpn. 88, 074601 (2019).
• Masao Ogata and Hidetoshi Fukuyama, "Range of Validity of Sommerfeld-Bethe Relation Associated with Seebeck Coefficient and Phonon Drag Contribution", J. Phys. Soc. Jpn. 88, 074703 (2019).

  ---

• Keiya Kurematsu, Masayuki Ochi, Hidetomo Usui, Kazuhiko Kuroki, "First-principles study of LaOPbBiS₃ and its analogous compounds as thermoelectric materials", arXiv:1906.11505.

  ---

• Xufeng Wang, Mark Lundstrom, "Limitations of zT as a Figure of Merit for Nanostructured Thermoelectric Materials", arXiv:1906.09711.

  ---

• Matteo Baggioli, Bingyu Cui, Alessio Zaccone, "Theory of phonon glass behaviour in host-guest thermoelectrics with avoided crossing", arXiv:1906.08079.
• Ashish Kumar, "Apparatus for Seebeck coefficient measurement of wire, thin film and bulk materials in the wide temperature range (80-650K)", arXiv:1906.08023.

  ---

• Kamal Choudhary, Kevin Garrity, Francesca Tavazza, "Data-driven Discovery of 3D and 2D Thermoelectric Materials", arXiv:1906.06024.

  ---

• Jiang Cao, Jose D. Querales-Flores, Stephen Fahy, Ivana Savic, "Thermally induced band gap increase and high thermoelectric figure of merit of n-type PbTe", arXiv:1906.05322.
• Achim Harzheim, Jakub K. sowa, Jacob L. Swett, G. Andrew D. Briggs, Jan A. Mol, Pascal Gehring, "The role of metallic leads and electronic degeneracies in thermoelectric power generation in quantum dots", arXiv:1906.05401.
• T. Nishimura, H. Sakai, H. Mori, K. Akiba, H. Usui, M. Ochi, K. Kuroki, A. Miyake, M. Tokunaga, Y. Uwatoko, K. Katayama, H. Murakawa, and N. Hanasaki, "Large Enhancement of Thermoelectric Efficiency Due to a Pressure-Induced Lifshitz Transition in SnSe", Phys. Rev. Lett. 122, 226601 (2019)[arXiv:2001.08674].
• Yutaka Yamamoto, Masanori Ichioka, Hiroto Adachi, "Spin Seebeck effect in paramagnets and antiferromagnets at elevated temperatures", arXiv:1906.03796.

  ---

  [先頭]
• Unai Aseginolaza, Raffaello Bianco, Lorenzo Monacelli, Lorenzo Paulatto, Matteo Calandra, Francesco Mauri, Aitor Bergara, Ion Errea, "Strong anharmonicity and high thermoelectric efficiency in high temperature SnS from first-principles", arXiv:1906.02047.

  ---

• Junxue Li, Zhong Shi, Victor H. Ortiz, Mohammed Aldosary, Cliff Chen, Vivek Aji, Peng Wei, Jing Shi, "Spin Seebeck effect from antiferromagnetic magnons and critical spin fluctuations in epitaxial FeF₂ films", Phys. Rev. Lett. 122, 217204 (2019)[arXiv:1905.04408].
• Yi Xia, Junsoo Park, Vidvuds Ozolins, Chris Wolverton, "Leveraging Electron-Phonon Interaction to Enhance Thermoelectric Power Factor in Graphene-Like Semimetals", arXiv:1906.00115.
• Zhibin Gao, Gang Liu, Jie Ren, "High Thermoelectric Performance in Two-Dimensional Tellurium: An Ab Initio Study", arXiv:1906.00178.

  ---

• Caiyu Sheng, Dengdong Fan, Huijun Liu, "High thermoelectric performance of two-dimensional (PbTe)₂ layer", arXiv:1905.13442.
• Robert Sobota, Naoto Kubo, Masaharu Matsunami, and Tsunehiro Takeuchi, "Phase Diagram of Bi₂Sr₂CaCu₂O_8+d Constructed on Basis of Electronic Structure Investigations", J. Phys. Soc. Jpn. 88, 064711 (2019).

  ---

• Zizhen Zhou, Huijun Liu, Dengdong Fan, Guohua Cao, "Designing graphene/hexagonal boron nitride superlattice monolayer with high thermoelectric performance", arXiv:1905.12992.

  ---

• Hiroshi Nakatsugawa, Miwa Saito and Yoichi Okamoto, "High-Temperature Thermoelectric Properties of Pr_1−xSr_xFeO₃ (0.1 => x => 0.7)", Materials Transactions, Vol.60, No.06 (2019) pp. 1051.
• Mohd Natashah Norizan, Yuji Ohishi, Ken Kurosaki and Hiroaki Muta, "Fabrication and Thermoelectric Property of Bi_0.88Sb_0.12/InSb Eutectic Alloy by Melt Spinning and Spark Plasma Sintering", Materials Transactions, Vol.60, No.06 (2019) pp.1072.
• Jungmin Kim, Yuji Ohishi, Hiroaki Muta and Ken Kurosaki, "Enhanced Thermoelectric Properties of Ga and Ce Double-Filled p-Type Skutterudites", Materials Transactions, Vol.60, No.06 (2019) pp.1078.

  ---

• Federico Caglieris, Christoph Wuttke, Xiaochen Hong, Steffen Sykora, Rhea Kappenberger, Saicharan Aswartham, Sabine Wurmehl, Bernd Büchner, Christian Hess, "Orbital-driven elasto-Seebeck and elasto-Nernst effects in 1111 iron based superconductors", arXiv:1905.11660.

  ---

• Jayanta Bera, Satyajit Sahu, "Strain Induced Enhancement of Thermoelectric Properties of Monolayer WS2 through Valley Degeneracy", arXiv:1905.10405.
• Shuo Deng, Lijie Li, Paul Rees, "Bilayer graphene nanoribbons junction with aligned holes exhibiting high ZT values", arXiv:1905.10542.
• Flavio Abreu Araujo, Tristan da Camara Santa Clara Gomes, Luc Piraux, "Magnetic control of flexible thermoelectric devices based on macroscopic 3D interconnected nanowire networks", arXiv:1905.11072.
• Alestin Mawrie, Bhaskaran Muralidharan, "Quantum thermoelectrics based on 2-D Semi-Dirac materials", arXiv:1905.11039.
• Jincheng Lu, Yefeng Liu, Rongqian Wang, Chen Wang, Jian-Hua Jiang, "Optimal efficiency and power and their trade-off in three-terminal quantum thermoelectric engines with two output electric currents", arXiv:1905.10992.

  ---

• Raad Haleoot, Bothina Hamad, "Thermodynamic and Thermoelectric Properties of CoFeYGe (Y= Ti, Cr) Quaternary Heusler Alloys: First Principle Calculations", arXiv:1905.09854.

  ---

• Michael O Ogunbunmi, Andre M Strydom, "Crystal structure and thermodynamic properties of the non-centrosymmetric PrRu₄Sn₆ caged compound", arXiv:1905.09008.
• Maxime Markov, Emad Rezaei, Safoura Nayeb Sadeghi, Keivan Esfarjani, Mona Zebarjadi, "Thermoelectric properties of semimetals", arXiv:1905.08282.

  ---

• Simon Thebaud, Christophe Adessi, Georges Bouzerar, "Large enhancement of the thermoelectric power factor in disordered materials through resonant scattering", arXiv:1905.08172.
• Chathurangi Kumarasinghe, Neophytos Neophytou, "Band alignment and scattering considerations for enhancing the thermoelectric power factor of complex materials: The case of Co-based half-Heuslers", Phys. Rev. B 99, 195202 (2019)[arXiv:1905.07951].

  ---

• Kouta Takahashi, Hiroshi Ikenoue, Mitsuo Sakashita, Osamu Nakatsuka, Shigeaki Zaima and Masashi Kurosawa, "Operation of thin-film thermoelectric generator of Ge-rich poly-Ge_1-xSn_x on SiO₂ fabricated by a low thermal budget process", Appl. Phys. Express 12, 051016(2019).
• Kinta Kusano, Mikie Tsuji, Takashi Suemasu and Kaoru Toko, "80 °C synthesis of thermoelectric nanocrystalline Ge film on flexible plastic substrate by Zn-induced layer exchange", Appl. Phys. Express 12, 055501(2019).

  ---

• S. Joseph Poon, "Half-Heusler Compounds: Promising Materials For Mid-To-High Temperature Thermoelectric Conversion", arXiv:1905.03845.

  ---

• Yining Feng, Evan Witkoske, Bahadir Kucukgok, Yee Rui Koh, Ali Shakouri, Ian T. Ferguson, Mark Lundstrom, Na Lu, "Homogenous In_xGa_1-xN alloys on ZnO substrates: A new approach for high performance thermoelectric materials", arXiv:1905.03769.

  ---

• Parijat Sengupta, Shaloo Rakheja, "Spin-valley coupled thermoelectric energy converter with strained honeycomb lattices", arXiv:1905.00984.
• M. Anwar Hossain, M. A. Al Noman, Md. Taslimur Rahman, "Optoelectronic and transport properties of Fe₂TiGe with the Tran-Blaha modified Becke-Johnson potential", arXiv:1905.01598.

  ---

• Enamul Haque, "Extraordinary thermoelectric efficiency in Li₂SnX₃(X=S, Se) from first-principles calculations", arXiv:1904.12338.
• Junjie Liu, Dvira Segal, "Thermodynamic uncertainty relation in quantum thermoelectric junctions", arXiv:1904.11963.

  ---

• Yoshisato Kimura, Masashi Yamada and Yaw Wang Chai, "Thermoelectric Properties of Nearly Single-Phase β-FeSi2 Alloys Fabricated by Gas-Atomized Powder Sintering", Materials Transactions, Vol.60, No.05 (2019) pp.652.

  ---

  [先頭]
• Yaakov Kleeorin, Holger Thierschmann, Hartmut Buhmann, Antoine Georges, Laurens W. Molenkamp, Yigal Meir, "Measuring the Entropy of a Mesoscopic System via Thermoelectric Transport", arXiv:1904.08948.

  ---

• Thomas A. Niehaus, Sigismund T.A.G. Melissen, Balint Aradi, S. Mehdi Vaez Allaei, "Towards thermoelectricity with density-functional based tight-binding: Accuracy of phonon bandstructures", arXiv:1904.06906.
• Vahid Askarpour, Jesse Maassen, "Unusual thermoelectric transport anisotropy in quasi-2D, rhombohedral GeTe", arXiv:1904.06439.

  ---

• Xiuxian Yang, Zhenhong Dai, Yinchang Zhao, Sheng Meng, "Superhigh thermoelectric figure of merit in silver halides AgCl and AgBr from first principles", arXiv:1904.06010.

  ---

• Himanshu Sharma, Zhenchao Wen, Koki Takanashi, Masaki Mizuguchi, "Anomaly in anomalous Nernst effect at low temperature for C1b-type NiMnSb half-Heusler alloy thin film", Jpn. J. Appl. Phys. 58, SBBI03 (2019)[arXiv:1811.03791].
• Fumiya Nakata, Takumi Niimura, Yuichiro Kurokawa and Hiromi Yuasa, "Spin Seebeck voltage enhancement by Mn system metals insertion at the interface between YIG and nonmagnetic layer", Jpn. J. Appl. Phys. 58, SBBI04 (2019).
• Kouji Suemori and Sei Uemura, "Thermoelectric characteristics of carbon nanotube/poly(dimethylsiloxane) composites fabricated by solvent-less printing", Jpn. J. Appl. Phys. 58, SBBG17 (2019).
• Samuel Foster, Neophytos Neophytou, "Effectiveness of nanoinclusions for reducing bipolar effects in thermoelectric materials", Computational Materials Science, 164, 2019, 91 [arXiv:1904.05603].
• G. Lemut, M. J. Pacholski, I. Adagideli, C. W. J. Beenakker, "Effect of charge renormalization on electric and thermo-electric transport along the vortex lattice of a Weyl superconductor", arXiv:1904.05758.

  ---

• Ulrich Eckern, Karol I. Wysokinski, "Multi-terminal far-from-equilibrium thermoelectric nano-devices in the Kondo regime", arXiv:1904.05064.

  ---

• Sonu Verma, Tutul Biswas, Tarun Kanti Ghosh, "Thermoelectric and optical probes for Fermi surface topology change in noncentrosymmetric metals", arXiv:1904.04656.
• Shivprasad S. Shastri, Sudhir K. Pandey, "Two functionals approach in DFT for the prediction of thermoelectric properties of Fe2ScX (X = P, As, Sb) full Heusler compounds", arXiv:1904.04322.

  ---

• Tridib Kumar Sinha, Jinho Lee, Jin Kuk Kim, Samit K. Ray, Biplab Paul, "Facile and time-resolved chemical growth of nanoporous Ca_xCoO₂ thin films for flexible and thermoelectric applications", arXiv:1904.03284.
• Aakash Yadav, PC Deshmukh, Ken Roberts, NM Jisrawi, SR Valluri, "An Analytic Study of the Wiedemann-Franz Law and the Thermoelectric Figure of Merit", arXiv:1904.03183.
• Fei Han, Nina Andrejevic, Thanh Nguyen, Brian Skinner, Quynh Nguyen, Zhiwei Ding, Ricardo Pablo-Pedro, Shreya Parjan, Vladyslav Kozii, Ahmet Alatas, Ercan Alp, Songxue Chi, Jaime Fernandez-Baca, Shengxi Huang, Liang Fu, Mingda Li, "Signature of the Quantized Thermoelectric Hall Effect in a Topological Weyl Semimeta", arXiv:1904.03179.
• Sara Kheradsoud, Nastaran Dashti, Maciej Misiorny, Patrick P. Potts, Janine Splettstoesser, Peter Samuelsson, "Power, Efficiency and Fluctuations in a Quantum Point Contact as Steady-State Thermoelectric Heat Engine", arXiv:1904.03912.

  ---

• Acacio Silveira Melo, Alexandre Barbosa de Oliveira, Carlos Chesman, Rafael Domingues Della Pace, Felipe Bohn, Marcio Assolin Correa, "Tailoring anomalous Nernst effect in stressed magnetostrictive film grown onto flexible substrate", arXiv:1904.03125.

  ---

• Sapna Singh, Mohd Zeeshan, Jeroen van den Brink, Hem C. Kandpal, "Ab initio study of Bi-based half Heusler alloys as potential thermoelectric prospects", arXiv:1904.02488.
• Sapna Singh, Mohd Zeeshan, Jeroen van den Brink, Hem C. Kandpal, "First-principles investigations of orthorhombic-cubic phase transition and its effect on thermoelectric properties in cobalt-based ternary alloys", arXiv:1904.02485.
• Wenjie Zhang, Peipei Wang, Brian Skinner, Ran Bi, Vladyslav Kozii, Chang-Woo Cho, Ruidan Zhong, John Schneeloch, Dapeng Yu, Genda Gu, Liang Fu, Xiaosong Wu, Liyuan Zhang, "Quantized plateau in the thermoelectric Hall conductivity for Dirac electrons in the extreme quantum limit", arXiv:1904.02157.

  ---

• Yoshikazu Mizuguchi, "Material Development and Physical Properties of BiS₂-Based Layered Compounds", J. Phys. Soc. Jpn. 88, 041001 (2019).
• Chul-Ho Lee, "Effect of Planar Rattling on Suppression of Thermal Conductivity in Thermoelectric Materials", J. Phys. Soc. Jpn. 88, 041009 (2019).
• Masayuki Ochi , Hidetomo Usui, and Kazuhiko Kuroki, "Theoretical Aspects of the Study on the Thermoelectric Properties of Pnictogen-Dichalcogenide Layered Compounds", J. Phys. Soc. Jpn. 88, 041010 (2019).

  ---

• J. L. Zhang, C. M. Wang, C. Y. Guo, X. D. Zhu, J. Y. Yang, Y. Q. Wang, Z. Qu, L. Pi, H. Z. Lu, M. L. Tian, "Thermoelectric Evidence for Massive Bulk Dirac Fermions in ZrTe₅", arXiv:1904.00417.

  ---

• Kevin Delime-Codrin, Muthusamy Omprakash, Swapnil Ghodke, Robert Sobota, Masahiro Adachi, Makoto Kiyama, Takashi Matsuura, Yoshiyuki Yamamoto, Masaharu Matsunami and Tsunehiro Takeuchi, "Large figure of merit ZT = 1.88 at 873 K achieved with nanostructured Si_0.55Ge_0.35(P_0.10Fe_0.01)", Appl. Phys. Express 12, 045507(2019).

  ---

• K. Terashima, Y. Yano, E. Paris, Y. Goto, Y. Mizuguchi, Y. Kamihara, T. Wakita, Y. Muraoka, N. L. Saini, T. Yokoya, "Enhanced thermoelectricity by controlled local structure in bismuth-chalcogenides", arXiv:1903.11801.
• Alexander Mook, Robin R. Neumann, Jrgen Henk, Ingrid Mertig, "Spin Seebeck and Spin Nernst Effects of Magnons in Noncollinear Antiferromagnetic Insulators", arXiv:1903.11896.
• M. Kockert, R. Mitdank, A. Zykov, S. Kowarik, S. F. Fischer, "Absolute Seebeck coefficient of thin platinum films", arXiv:1903.12109.

  ---

• E.C.I. van der Wurff, H.T.C. Stoof, "Magnetovortical and thermoelectric transport in tilted Weyl metals", arXiv:1903.10985.

  ---

  [先頭]
• Ruben M. Otxoa, Unai Atxitia, Pierre E. Roy, Oksana Chubykalo Fesenko, "Giant localised spin-Peltier effect due to ultrafast domainwalls motion in antiferromagnetic metals", arXiv:1903.08034.
• R. Ramos, T. Hioki, Y. Hashimoto, T. Kikkawa, P. Frey, A. J. E. Kreil, V. I. Vasyuchka, A. A. Serga, B. Hillebrands, E. Saitoh, "Room temperature and low-field resonant enhancement of spin Seebeck effect in partially compensated magnets", arXiv:1903.09007.

  ---

• Domenic Prete, Paolo Andrea Erdman, Valeria Demontis, Valentina Zannier, Daniele Ercolani, Lucia Sorba, Fabio Beltram, Francesco Rossella, Fabio Taddei, Stefano Roddaro, "Thermoelectric conversion at 30K in InAs/InP nanowire quantum dots", arXiv:1903.06935.

  ---

• Tarachand, Monika Saxena, Bodhoday Mukherjee, Gunadhor S. Okram, "A New Load-based Thermopower Measurement Setup in the Temperature Range of 5 - 330 K", arXiv:1903.04269.

  ---

• Leonardo Viti, Antonio Politano, Kai Zhang, Miriam Serena Vitiello, "Thermoelectric terahertz photodetectors based on selenium-doped black phosphorus flakes", Nanoscale, 2019, 11, 1995-2002 [arXiv:1903.02955].

  ---

• Kamal Das, Amit Agarwal, "Berry curvature induced thermopower in type-I and type-II Weyl Semimetals", arXiv:1903.01205.
• Ryo Iguchi, Shinya Kasai, Kazushige Koshikawa, Norimichi Chinone, Shinsuke Suzuki, Ken-ichi Uchida, "Thermoelectric microscopy of magnetic skyrmions", arXiv:1903.01037 .
• Elham Rahmati, "Thermoelectric Features of Magnetic Doped Graphene Nanoribbons", arXiv:1903.00528.

  ---

• Samuel Foster, Mischa Thesberg, Neophytos Neophytou, "Quantum transport simulations for the thermoelectric power factor in two dimensional nanocomposites", arXiv:1903.00357.
• Vicente Arjona, Juan Borge, Mara A.H. Vozmediano, "Thermoelectric relations in the conformal limit in Dirac and Weyl semimetals", arXiv:1903.00019.

  ---

• Laura de Sousa Oliveira, Vassillios Vargiamidis, Neophytos Neophytou, "Transport simulations in hierarchically disordered nanostructures for thermoelectric material design", arXiv:1902.11226.
• Z. Z. Zhou, H. J. Liu, D. D. Fan, G. H. Cao, "A comparative study of the thermoelectric performance of graphene-like BX (X= P, As, Sb) monolayers", arXiv:1902.10992.

  ---

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• Unai Aseginolaza, Raffaello Bianco, Lorenzo Monacelli, Lorenzo Paulatto, Matteo Calandra, Francesco Mauri, Aitor Bergara, Ion Errea, "Phonon Collapse and Second-Order Phase Transition in Thermoelectric SnSe", Phys. Rev. Lett. 122, 075901 (2019) [arXiv:1807.07726].

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• Swarnadip Mukherjee, Bhaskaran Muralidharan, "Optimized Fabry-Perot cavity engineered nanoscale thermoelectric generators", arXiv:1902.07547.

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• Zhong Li, Jan Krieft, Amit Vikram Singh, Sudhir Regmi, Ankur Rastogi, Abhishek Srivastava, Zbigniew Galazka, Tim Mewes, Arunava Gupta, Timo Kuschel, "Vectorial observation of the spin Seebeck effect in epitaxial NiFe₂O₄ thin films with various magnetic anisotropy contributions", arXiv:1902.05384.

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• Davide Donadio, "Advances in the optimization of silicon-based thermoelectrics: a theory perspective", arXiv:1902.04695.

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• Masayuki Ochi, Kazuhiko Kuroki, "Comparative first-principles study of antiperovskite oxides and nitrides as thermoelectric material: multiple Dirac cones, low-dimensional band dispersion, and high valley degeneracy", arXiv:1902.03424.

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• Akira Endo, Kazuhiro Fujita, Shingo Katsumoto, Yasuhiro Iye, "Spatial distribution of thermoelectric voltages in a Hall-bar shaped two-dimensional electron system under a magnetic field", arXiv:1902.02669.
• Vicente Arjona, Maxim N. Chernodub, Maria A.H. Vozmediano, "Fingerprints of the conformal anomaly on the thermoelectric transport in Dirac and Weyl semimetals: Result from a Kubo formula", arXiv:1902.02358.

  ---

• Ilaria Pallecchi, Marco Monni, Pietro Manfrinetti, Marina Putti, "Band filling and disorder effects on the normal state thermoelectric behavior in MgB₂", arXiv:1902.01847.
• Sahar Izadi Vishkayi, Meysam Bagheri Tagani, "Tuning thermoelectric efficiency of polyaniline sheet by strain engineering", arXiv:1902.01762.
• Christoph Wuttke, Federico Caglieris, Steffen Sykora, Francesco Scaravaggi, Anja U. B. Wolter, Kaustuv Manna, Vicky Sss, Chandra Shekhar, Claudia Felser, Bernd Bchner, Christian Hess, "Berry curvature unravelled by the Nernst effect", arXiv:1902.01647.

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• Arnab K. Majee, Adithya Kommini, Zlatan Aksamija, "Electronic Transport and Thermopower in 2D and 3D Heterostructures--A Theory Perspective", arXiv:1901.10976.

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• Yosuke Goto, Akira Miura, Chikako Moriyoshi, Yoshihiro Kuroiwa, Yoshikazu Mizuguchi, "Effect of Bi Substitution on Thermoelectric Properties of SbSe₂-based Layered Compounds NdO_0.8F_0.2Sb_1−xBi_xSe₂", J. Phys. Soc. Jpn. 88, 024705 (2019) [arXiv:1901.09909].
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• Amir Eskandari-asl, "The Effects of Environment on Thermopower and Thermocurrent in Open Molecular Junctions", arXiv:1901.09678.

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  [先頭]
• Karol Synoradzki, Kamil Ciesielski, Leszek Kepinski, Dariusz Kaczorowski, "Effect of secondary LuNiSn phase on thermoelectric properties of half-Heusler alloy LuNiSb", arXiv:1901.08399.

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• SK Firoz Islam, "Enhancement of thermoelectric performance of a nanoribbon made of alpha-T₃ lattice", arXiv:1901.07943.

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• Yusheng Wang, Bin Xu, Gongqi Yu, Jing Zhang, Shanshan Ma, Shaoheng Yuan, Tao Sun and Yuanxu Wang, "Electronic structure and thermoelectric properties of Bi₂O₂Se with GGA and TB-mBJ potentials", Jpn. J. Appl. Phys. 58, 015501 (2019).
• Vincenzo Fiorentini, Roberta Farris, Edoardo Argiolas, Maria Barbara Maccioni, "High thermoelectric figure of merit and thermopower in layered perovskite oxides", arXiv:1901.04760.
• Samuel Foster, Neophytos Neophytou, "Doping optimization for the power factor of bipolar thermoelectric materials", arXiv:1901.04718.
• Jing Wu, Yanpeng Liu, Yi Liu, Yongqing Cai, Yunshan Zhao, Hong Kuan Ng, Kenji Watanabe, Takashi Taniguchi, Gang Zhang, Chengwei Qiu, Dongzhi Chi, AH Castro Neto, John TL Thong, Kian Ping Loh, Kedar Hippalgaonkar, "Kondo Impurities in Two Dimensional MoS₂ for Achieving Ultrahigh Thermoelectric Powerfactor", arXiv:1901.04661.

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• Vassilios Vargiamidis, Neophytos Neophytou, "Hierarchical nanostructuring approaches for thermoelectric materials with high power factors", Phys. Rev. B 99, 045405 (2019) [arXiv:1901.04430].
• Eddwi H. Hasdeo, Lukas P. A. Krisna, Bobby E. Gunara, Nguyen T. Hung, Ahmad. R. T. Nugraha, "Optimal band gap for improved thermoelectric performance of two-dimensional Dirac materials", arXiv:1901.03999.

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• Raja Das, Ken-ichi Uchida, "Thermopile based on anisotropic magneto-Peltier effect", arXiv:1901.03063.
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• Tatsuhiro Nozue, Takashi Kikkawa, Tomoki Watamura, Tomohiko Niizeki, Rafael Ramos, Eiji Saitoh, Hirohiko Murakami, "Fabrication of yttrium-iron-garnet/Pt multilayers for the longitudinal spin Seebeck effect", Appl. Phys. Lett. 113, 262402 (2018) [arXiv:1901.02129].
• Naoko Ito, Mayu Ishii, Ryuji Okazaki, "Enhanced Seebeck coefficient by a filling-induced Lifshitz transition in K_xRhO₂", arXiv:1901.02116.

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• Marcin Matusiak, Michal Babij, "Thermoelectric signature of the nematic phase in hole-doped iron-based superconductor", arXiv:1901.01788.

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• Girish Sharma, Sumanta Tewari, "Transverse thermopower in Dirac and Weyl semimetals", arXiv:1812.10681.
• Baojuan Dong, Zhenhai Wang, Nguyen T. Hung, Artem R. Oganov, Teng Yang, Riichiro Saito, Zhidong Zhang, "New two-dimensional phase of tin chalcogenides: candidates for high-performance thermoelectric materials", arXiv:1901.00245.

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• Gang Qiu, Shouyuan Huang, Mauricio Segovia, Prabhu K. Venuthurumilli, Yixiu Wang, Wenzhuo Wu, Xianfan Xu, Peide D. Ye, "Thermoelectric Performance of 2D Tellurium with Accumulation Contacts", arXiv:1812.10231.
• Benedetta Flebus, Yaroslav Tserkovnyak, Gregory A. Fiete, "Interfacial Spin Seebeck effect in noncollinear magnetic systems", arXiv:1812.09890.

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• Stephane Yu Matsushita, Khuong Kim Huynh, Katsumi Tanigaki, "Ultrathin film of 3D topological insulators by vapor-phase epitaxy: Surface dominant transport in wide temperature revealed by Seebeck measurement", arXiv:1812.08908.
• L. Chotorlishvili, Z. Toklikishvili, X.-G. Wang, V. K. Dugaev, J. Barnas, J. Berakdar, "Influence of spin-orbit and spin-Hall effects on the spin Seebeck current beyond linear response", arXiv:1812.09270.
• G. M. Gusev, O. E. Raichev, E. B. Olshanetsky, A. D. Levin, Z. D. Kvon, N. N. Mikhailov, S. A. Dvoretsky, "Thermoelectric transport in two-dimensional topological insulator state based on HgTe quantum well", 2D Materials, 6, 014001 (2019) [arXiv:1812.09226].

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• Hermann Freire, "Thermal and thermoelectric transport coefficients for a two-dimensional SDW metal with weak disorder: A memory matrix calculation", arXiv:1812.08515.
• G. A. Namnes, T. L. Mitran, A. Manolescu, Daniela Dragoman, "Electric and thermoelectric properties of graphene bilayers with extrinsic impurities under applied electric field", arXiv:1812.08672.
• Priyadarshini Kapri, Saurabh Basu, "Thermopower generation and thermoelectric cooling in a Kane-Mele normal-insulator-superconductor nano-junction", arXiv:1812.08381.

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• E. B. Olshanetsky, Z. D. Kvon, M. V. Entin, L. I. Magarill, A. Levin, G. M. Gusev, N. N. Mikhailov, "Thermopower of a Two-Dimensional Semimetal in a HgTe Quantum Well", arXiv:1812.07943.
• Catalin D. Spataru, Yuping He, Francois Leonard, "Atomistic study of an ideal metal/thermoelectric contact: the full-Heusler/half-Heusler interface", arXiv:1812.07189.
• Galen T. Craven, Dahai He, and Abraham Nitzan, "Electron-Transfer-Induced Thermal and Thermoelectric Rectification", Phys. Rev. Lett. 121, 247704 (2018)[arXiv:1908.00495].

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• Nzar Rauf Abdullah, Chi-Shung Tang, Andrei Manolescu, Vidar Gudmundsson, "Thermoelectric inversion in a resonant quantum dot-cavity system in the steady-state regime", arXiv:1812.05665.

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• Evan Witkoske, David Guzman, Yining Feng, Alejandro Strachan, Mark Lundstrom, Na Lu, "The use of strain to tailor electronic thermoelectric transport properties: A first principles study of 2H-phase CuAlO₂", arXiv:1812.05085.

  ---

• Ethan I. Kleinbaum, Stephen A. Lyon, "Thermopower-Based Hot Electron Thermometry of Helium Surface States at 1.6 K", Phys. Rev. Lett. 121, 236801 (2018) [arXiv:1807.09166].

  ---

  [先頭]
• Johannes Boy, Martin Handwerg, Robin Ahrling, Rüdiger Mitdank, Günter Wagner, Zbigniew Galazka, Saskia F. Fischer, "Temperature dependence of the Seebeck coefficient of epitaxial β-Ga₂O₃ thin films", arXiv:1812.02408.
• Ryota Nakai, Naoto Nagaosa, "Nonreciprocal thermal and thermoelectric transport of electrons in noncentrosymmetric crystals", arXiv:1812.02372.

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• S. Joseph Poon, "Recent Advances in Thermoelectric Performance of Half-Heusler Compounds", Metals 8, 989 (2018) [arXiv:1812.01709].

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• A. Sola, V. Basso, M. Kuepferling, M. Pasquale, D. Meier, G. Reiss, T. Kuschel, T. Kikkawa, K. Uchida, E. Saitoh, H. Jin, S. Boona, S. Watzman, J. Heremans, M. B. Jungfleisch, W. Zhang, J. E. Pearson, A. Hoffmann, H. W. Schumacher, "Spincaloritronic measurements: a round robin comparison of the longitudinal spin Seebeck effect", arXiv:1812.00999.

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• Diasuke Miura, Akimasa Sakuma, "Tunable Spin Seebeck Diode with Magnonic Spin Tunneling Junction", J. Phys. Soc. Jpn. 87, 125001 (2018) [arXiv:1811.01141].
• Benjamin Geisler, Rossitza Pentcheva, "Inducing n- and p-type thermoelectricity in oxide superlattices by strain tuning of orbital-selective transport resonances", arXiv:1812.00503.

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• Achim Harzheim, Jean Spiece, Charalambos Evangeli, Edward McCann, Vladimir Falko, Yuewen Sheng, Jamie H. Warner, G. Andrew D. Briggs, Jan A. Mol, Pascal Gehring, Oleg V. Kolosov, "Geometrically Enhanced Thermoelectric Effects in Graphene Nanoconstrictions", arXiv:1811.12101.

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• Jiyoung Jung, Sangryun Lee, Byungki Ryu, Seunghwa Ryu, "Effective thermoelectric properties of a composite with interfacial resistance using a micromechanics-based homogenization", arXiv:1811.11340.
• Junwen Zeng, Xin He, Shi-Jun Liang, Erfu Liu, Yuanhui Sun, Chen Pan, Yu Wang, Tianjun Cao, Xiaowei Liu, Chengyu Wang, Lili Zhang, Shengnan Yan, Guangxu Su, Zhenlin Wang, Kenji Watanabe, Takashi Taniguchi, David J. Singh, Lijun Zhang, Feng Miao, "Experimental identification of critical condition for drastically enhancing thermoelectric power factor of two-dimensional layered materials", arXiv:1811.11592.
• tienne Jussiau, Masahiro Hasegawa, Robert S. Whitney, "Signature of the transition to a bound state in thermoelectric quantum transport", arXiv:1811.11550.

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• H. Kunioka, K. Kihou, H. Nishiate, a A. Yamamoto, H. Usui, K. Kuroki, C. H. Lee, "Thermoelectric properties of (Ba,K)Cd₂As₂ crystallized in the CaAl₂Si₂-type structure", Dalton Trans., 47, 16205 (2018) [arXiv:1811.10867].

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• Moslem Zare, "Thermoelectric transport properties of borophane", arXiv:1811.09915.

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• Yuto Tanaka, Mineo Saito and Fumiyuki Ishii, "Anisotropic thermoelectric effect on phosphorene and bismuthene: first-principles calculations based on nonequilibrium Green's function theory", Jpn. J. Appl. Phys. 57 125201 (2018).
• Hiroki Nagai, Tomohisa Takamatsu, Yoshihiko Iijima, Kei Hayashi and Yuzuru Miyazak, "Improved thermoelectric performance from CrSi₂ by Cu substitution into Si sites", Jpn. J. Appl. Phys. 57 121801 (2018).
• Yuttana Mona, Jun-ichi Hayashi, Yukihiro Kawamura, Kunihiro Kihou, Hirotaka Nishiate, Chul-Ho Lee and Chihiro Sekine, "Thermoelectric properties of partially filled skutterudites R_xCo4Sb₁₂ (R = Ce and Nd) synthesized under high pressures", Jpn. J. Appl. Phys. 57 125506 (2018).

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• Akira Nagaoka, Taizo Masuda, Shintaro Yasui, Tomoyasu Taniyama and Yoshitaro Nose, "Effects of chalcogen composition on the thermoelectric properties in Cu₂ZnSn(S_1-xSe_x)₄ single crystals", Jpn. J. Appl. Phys. 57 101201 (2018).
• Artis Svilans, Martin Josefsson, Adam M. Burke, Sofia Fahlvik, Claes Thelander, Heiner Linke, and Martin Leijnse, "Thermoelectric Characterization of the Kondo Resonance in Nanowire Quantum Dots", Phys. Rev. Lett. 121, 206801 (2018)[arXiv:1807.07807].

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• Jhon W. Gonzalez, "Highly anisotropic thermoelectric properties of carbon sulfide monolayers", arXiv:1811.06656.

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• Leo Laugier, Daniil Bash, Jose Recatala, Hong Kuan Ng, Savitha Ramasamy, Chuan-Sheng Foo, Vijay R Chandrasekhar, Kedar Hippalgaonkar, "Predicting thermoelectric properties from crystal graphs and material descriptors - first application for functional materials", arXiv:1811.06219.
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• U. Stockert, C. Klingner, C. Krellner, V. Zlati, C. Geibel, F. Steglich, "Thermopower evolution in Yb(Rh_1−xCo_x)₂Si₂", arXiv:1811.06306.

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• S. Srichandan, S. Deng, I. A. Fischer, C. Sürgers, "Interface-induced enhancement of the anomalous Nernst effect in ferromagnetic Mn₅Ge₃C_0.8 films", arXiv:1811.05857.

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• Alessandro Sola, Vittorio Basso, Michaela Kuepferling, Carsten Dubs, Massimo Pasquale, "Experimental proof of the reciprocal relation between spin Peltier and spin Seebeck effects in a bulk YIG/Pt bilayer", arXiv:1811.05120.
• Ipsita Mandal, Kush Saha, "Thermopower in an anisotropic two-dimensional Weyl semimetal", arXiv:1811.04952.

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• B. Dutta, D. Majidi, A. Garcia Corral, P. Erdman, S. Florens, T. Costi, H. Courtois, C.B. Winkelmann, "Direct measurement of the Seebeck coefficient in a Kondo-correlated single-quantum-dot transistor", arXiv:1811.04219.
• Somnath Acharya, Dibyendu Dey, Tulika Maitra, Ajay Soni, A. Taraphder, "Rare Earth Doping and Effective Band-Convergence in SnTe for Improved Thermoelectric Performance", arXiv:1811.04389.
• Bo Peng, Haodong Mei, Hao Zhang, Hezhu Shao, Ke Xu, Rongjun Zhang, Gang Ni, Hongliang Lu, Costas M. Soukoulis, Heyuan Zhu, "High thermoelectric efficiency in monolayer PbI₂ from 300 K to 900 K", arXiv:1811.04244.

  ---

  [先頭]
• Rui Shu, Yecheng Zhou, Qi Wang, Zhijia Han, Yongbin Zhu, Yong Liu, Yuexing Chen, Meng Gu, Wei Xu, Yu Wang, Wenqing Zhang, Li Huang, Weishu Liu, "Mg_3+δSb_xBi_2−x family: A promising substitute for the start-of-art n-type thermoelectric materials near room temperature", arXiv:1811.03198.
• Haiyang Yang, Wei You, Jialu Wang, Junwu Huang, Chuanying Xi, Chao Cao, Mingliang Tian, Zhu-An Xu, Jianhui Dai, Yuke Li, "Giant anomalous Nernst effect in the magnetic Weyl semimetal Co₃Sn₂S₂", arXiv:1811.03485.
• Z. Z. Zhou, H. J. Liu, D. D. Fan, G. H. Cao, C. Y. Sheng, "High thermoelectric performance in the hexagonal bilayer structure consisting of light boron and phosphorus elements", arXiv:1811.03409.

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• Tatsuhiko Taniguchi, Takafumi Ishibe, Hiroki Miyamoto, Yuichiro Yamashita and Yoshiaki Nakamura, "Thermoelectric properties of epitaxial Ge thin films on Si(001) with strong crystallinity dependence", Appl. Phys. Express 11, 111301(2018).

  ---

• Shuo Deng, Xiang Cai, Yan Zhang, Lijie Li, "Enhanced thermoelectric performance of twisted bilayer graphene nanoribbons junction", arXiv:1811.01435.

  ---

• Enamul Haque, M. Anwar Hossain, "DFT based study on structural stability and transport properties of Sr₃AsN: A potential thermoelectric material", arXiv:1810.12531.
• Enamul Haque, Md. Taslimur Rahman, M. Anwar Hossain, "Optoelectronic and thermoelectric properties of Ba₃DN (D = Sb, Bi): A DFT investigation", arXiv:1810.12526.

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• A. Chikina, J.-Z. Ma, W. H. Brito, S. Choi, Q. Du, J. Jandke, H. Liu, N. C. Plumb, M. Shi, C. Petrovic, M. Radovic, G. Kotliar, "Anisotropic Correlated Electronic Structure of Colossal Thermopower Marcasite FeSb₂", arXiv:1810.12284.

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• Z. Wang, S. Wang, S. Obukhov, N. Vast, J. Sjakste, V. Tyuterev, N. Mingo, "Thermoelectric transport properties of silicon: Towards an ab initio approach", arXiv:1810.10680.
• Byungki Ryu, Jaywan Chung, SuDong Park, "hermoelectric efficiency has three Degrees of Freedom", arXiv:1810.11148.

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• Eric B. Isaacs, Chris Wolverton, "Remarkable thermoelectric performance in BaPdS₂ via pudding-mold band structure and ultralow lattice thermal conductivity", arXiv:1810.08654.

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• Rahul Singh, Prashant Singh, Ganesh Balasubramanian, "Tuning Bandgap and Energy Stability of Organic-Inorganic Halide Perovskites through Surface Engineering", arXiv:1810.07297.

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• Ryo Iguchi and Ken-ichi Uchida, "Charge-current angle and frequency dependences of the spin Peltier effect induced by the spin Hall effect", Jpn. J. Appl. Phys. 57 0902B6 (2018).
• Yair Mazal, Yigal Meir, Yonatan Dubi, "Non-Monotonic Thermoelectric Currents and Energy Harvesting in Interacting Double Quantum-Dots", arXiv:1810.04917.

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• Isaiah Gray, Takahiro Moriyama, Nikhil Sivadas, Ryan Need, Brian J. Kirby, David H. Low, Gregory M. Stiehl, John T. Heron, Daniel C. Ralph, Katja C. Nowack, Teruo Ono, Gregory D. Fuchs, "Spin Seebeck imaging of spin-torque switching in antiferromagnetic Pt/NiO/Pt heterostructures", arXiv:1810.03997.

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• Xiaoxi Chen, Siyi Chang, Jin Chen, Pengfei Nan, Hao Wang, Shan Li, Xiyang Li, Xu Chen, Qiulin Liu, Xiaoshan Zhu, Binghui Ge, Wei Cai, Jiehe Sui, Shuqi Zheng, Fangwei Wang, Xiaolong Chen, Huaizhou Zhao, "Porosity-mediated High-performance Thermoelectric Materials", arXiv:1810.03356.
• Pawan Kumar, Edmond W. Zaia, Erol Yildirim, DV Maheswar Repaka, Shuo-Wang Yang, Jeffrey J. Urban, Kedar Hippalgaonkar, "Polymer morphology and interfacial charge transfer dominate over energy-dependent scattering in organic-inorganic thermoelectrics", arXiv:1810.03248.
• Chol Won Ri, Kum Hyok Jong, Song Jin Im, Hak Chol Pak, "Thermoelectric transport through a finite-U quantum dot side-coupled to Majorana bound state", arXiv:1810.03161.

  ---

• Ryo Matsumoto, Zhufeng Hou, Hiroshi Hara, Shintaro Adachi, Hiroyuki Takeya, Tetsuo Irifune, Kiyoyuki Terakura and Yoshihiko Takano, "Two pressure-induced superconducting transitions in SnBi2Se4 explored by data-driven materials search: new approach to developing novel functional materials including thermoelectric and superconducting materials", Appl. Phys. Express 11, 093101(2018).
• Grzegorz Rut, Dominik Suszalski, Adam Rycerz, "Thermoelectric properties of gapped bilayer graphene", arXiv:1810.02280.
• Eddwi H. Hasdeo, Lukas P. A. Krisna, Ahmad R. T. Nugraha, "Thermoelectric properties of two-dimensional Dirac materials", arXiv:1810.01572.

  ---

• Enrique Munoz, Rodrigo Soto-Garrido, "Thermoelectric transport in torsional strained Weyl semimetals", arXiv:1809.10291.
• Alireza Saffarzadeh, Firuz Demir, George Kirczenow, "Thermoelectric voltage switching in gold atomic wire junctions", Phys. Rev. B98, 115436 (2018)[arXiv:1809.10218]

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• Yu Liu, Hechang Lei, Kefeng Wang, Milinda Abeykoon, J. B. Warren, Emil Bozin, C. Petrovic, "Thermoelectric studies of Ir_1−xRh_xTe₂ (0 =< x =< 0.3)", Phys. Rev. B98, 094519 (2018)[arXiv:1809.10137].

  ---

• Hideo Wada and Masahiro Haga, "hermoelectric Generation System Using the Exhaust Heat of Generators", Materials Transactions, Vol.59 No.10 (2018) pp.1621.
• Kevin Delime-Codrin, Ghodke Swapnil, Dogyun Byeon, Robert Sobota, Masaharu Matsunami and Tsunehiro Takeuchi, "Effective Decrease of the Thermal Conductivity Caused by Hf in Fe(V_0.955−xHf_0.045Ti_x)Sb Half-Heusler Phase", Materials Transactions, Vol.59 No.10 (2018) pp.1637.

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• Arjun Mani, Colin Benjamin, "Graphene quantum refrigerator", arXiv:1809.08535.
• Andrey L. Kutepov, Anthony Ruth, "Electronic structure and thermoelectric properties of CoAsSb with post-DFT approaches", arXiv:1809.08591.

  ---

• Shamim Sk, P. Devi, Sanjay Singh, Sudhir K Pandey, "Exploring the best scenario for understanding the high temperature thermoelectric behaviour of Fe₂VAl", arXiv:1809.07015.

  ---

  [先頭]
• Giuseppe Bevilacqua, Giuseppe Grosso, Guido Menichetti, Giuseppe Pastori Parravicini, "Phase diagrams of thermoelectric materials with delta-shaped transmission function", arXiv:1809.05449.

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• Jhon W. Gonzalez, Luis Rosales, Andres Ayuela, "Thermopower of Graphene Nanoribbons in the Pseudodiffusive Regime", arXiv:1809.02822.

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• P. V. Gorskyi, "Estimation of the electrical and thermal contact resistances and thermoemf of thermoelectric material-metal transient contact layer due to semiconductor surface rougness", arXiv:1809.02504.

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• Kei Kinoshita, Rai Moriya, Miho Arai, Satoru Masubuchi, Kenji Watanabe, Takashi Taniguchi, Tomoki Machida, "Photo-thermoelectric detection of cyclotron resonance in asymmetrically carrier-doped graphene two-terminal device", arXiv:1809.01824.

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• Ransell D'Souza, Sugata Mukherjee, "Enhancement of thermoelectric figure-of-merit of Graphene upon BN-doping and sample length reduction", arXiv:1809.00823.

  ---

• Dan-Dan Wu, Hua-Hua Fu, Qing-Bo Liu, Gui-Fang Du, Ruqian Wu, "Magnetic nanotubes: A new material platform to realize robust spin-Seebeck effect and perfect thermal spin-filtering effect", arXiv:1808.10702.

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• Yoshiki Takagiwa, "Improvement of the Thermoelectric Performance of Pseudogap and Narrow-Gap Compounds via Theoretical Calculations", Materials Transactions, Vol.59 No.09 (2018) pp.1411.

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• Yizhang Chen, Debangsu Roy, Egecan Cogulu, Houchen Chang, Mingzhong Wu, Andrew D. Kent, "First harmonic measurements of the spin Seebeck effect", arXiv:1808.07813.

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• Timothy M. McCormick, Robert C. McKay, Nandini Trivedi, "Nernst Thermopower of Time-Reversal Breaking Type-II Weyl Semimetals", arXiv:1808.06580.

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• Timo Kuschel, Michael Czerner, Jakob Walowski, Andy Thomas, Hans Werner Schumacher, Günter Reiss, Christian Heiliger, Markus Münzenberg, "Tunnel magneto-Seebeck effect", arXiv:1808.05638.

  ---

• P. Roura-Bas, Liliana. Arrachea, Eduardo Fradkin, "Helical spin thermoelectrics controlled by a side magnetic quantum dot in the quantum spin Hall state", arXiv:1808.05570.
• Nicolas Perez, Alisa Chirkova, Konstantin P. Skokov, Thomas George Woodcock, Oliver Gutfleisch, Nikolai V. Baranov, Kornelius Nielsch, Gabi Schierning, "Thermoelectric determination of electronic entropy change in Ni-doped FeRh", arXiv:1808.04183.
• C. C. Homes, Q. Du, C. Petrovic, W. H. Brito, S. Choi, G. Kotliar, "Unusual electronic and vibrational properties in the colossal thermopower material FeSb₂", arXiv:1808.04786.

  ---

• I. Loa, S. R. Popuri, A. D. Fortes, J. W. G. Bos, "Critical mode and band-gap-controlled bipolar thermoelectric properties of SnSe", arXiv:1808.01133.
• Masayuki Ochi, Hitoshi Mori, Daichi Kato, Hidetomo Usui, Kazuhiko Kuroki, "Thermoelectric performance of materials with CuCh₄ (Ch= S, Se) tetrahedra: Similarities and differences among their low-dimensional electronic structure from first principles", Phys. Rev. Materials 2, 085401 (2018)[arXiv:1808.01087].
• Tim Ludwig, Igor S. Burmistrov, Yuval Gefen, Alexander Shnirman, "A thermally driven spin-transfer-torque system far from equilibrium: enhancement of the thermoelectric current via pumping current", arXiv:1808.01192.
• Parijat Sengupta, Saptarshi Das, Junxia Shi, "Photo-caloritronics in the THz regime: Photon-assisted thermopower generators", arXiv:1808.01042.
• A. Khedri, T. A. Costi, V. Meden, "Nonequilibrium thermoelectric transport through vibrating molecular quantum dots", arXiv:1808.01211.

  ---

• Masahiro Nomura, Junichiro Shiomi, Takuma Shiga and Roman Anufriev, "Thermal phonon engineering by tailored nanostructures", Jpn. J. Appl. Phys. 57 080101 (2018).
• Chana Uttasilp, Nopporn Patcharaprakiti, Teerasak Somsak and Jutturit Thongpron, "Optimal solar energy on thermoelectric cooler of water generator in case study on flood crisis", Jpn. J. Appl. Phys. 57 08RH05 (2018).

  ---

• Daniel Baldomir, Daniel Failde, "On Behind the Physics of the Thermoelectricity of Topological Insulators", arXiv:1807.10545.

  ---

• Masato Kitamura, Kenji Hirota and Kazuhiro Hasezaki, "Relationships between Thermoelectric Properties and Milling Rotational Speed on Bi_0.3Sb_1.7Te_3.0 Thermoelectric Materials", Materials Transactions, Vol.59 No.08 (2018) 1225.
• Kenji Hirota, Masato Kitamura, Katsuhiro Takagi and Kazuhiro Hasezaki, "Thermoelectric Behaviors of Bi_0.3Sb_1.7Te_3.0 with Excess or Deficiency of Tellurium Prepared by Mechanical Alloying Followed by Hot Pressing", Materials Transactions, Vol.59 No.08 (2018) 1233.

  ---

• Z. Z. Zhou, H. J. Liu, D. D. Fan, C. Y. Sheng, G. H. Cao, "High thermoelectric performance originating from the grooved bands in the ZrSe₃ monolayer", arXiv:1807.08132.
• Takahiro Yamamoto, Hidetoshi Fukuyama, "Bipolar thermoelectric effects in semiconducting carbon nanotubes: Description in terms of one-dimensional Dirac electrons", arXiv:1807.08403.
• Jincheng Lu, Rongqian Wang, Jie Ren, Manas Kulkarni, Jian-Hua Jiang, "Quantum Dot circuit-QED thermoelectric diodes and transistors", arXiv:1807.08152.

  ---

• Celine Barreteau, Jean-Claude Crivello, Jean-Marc Joubert, Eric Alleno, "Looking for new thermoelectric materials among the TMX intermetallics using high-throughput calculations", arXiv:1807.07821.
• Jonathan Noky, Johannes Gooth, Claudia Felser, Yan Sun, "Characterization of topological band structures away from the Fermi level by anomalous Nernst measurements", arXiv:1807.07843.

  ---

• Roberta Farris, Maria Barbara Maccioni, Alessio Filippetti, Vincenzo Fiorentini, "Thermoelectric coefficients of Mg₃Sb₂ vs temperature and doping: an energy-dependent relaxation-time theoretical assessment", arXiv:1807.07513.

  ---

  [先頭]
• Cong Wang, Y. B. Chen, Shu-Hua Yao, Jian Zhou, "Significant low lattice thermal conductivity and potential high thermoelectric figure of merit in Na₂MgSn", arXiv:1807.06291.

  ---

• Maria Barbara Maccioni, Roberta Farris, Vincenzo Fiorentini, "Ab initio thermal conductivity of thermoelectric Mg₃Sb₂: evidence for dominant finite-size effects", arXiv:1807.04981.
• Ashutosh Kumar, Karuna Kumari, B. Jayachandran, D. Sivaprahasam, Ajay D Thakur, "Thermoelectric Properties of (1-x)LaCoO₃.xLa_0.7Sr_0.3MnO₃ Composite", Journal of Alloys and Compounds 749, 1092-1097 (2018)[arXiv:1807.05563].
• Ashutosh Kumara, D. Sivaprahsam, Ajay D Thakur, "Improvement of Thermoelectric properties of Lanthanum cobaltate by Sr and Mn co-substitution", Journal of Alloys and Compounds 735, 1787-1791 (2018)[arXiv:1807.05562].

  ---

• Y. Sakuraba, K. Hyodo, A. Sakuma, S. Mitani, "Strategic enhancement of anomalous Nernst effect in Co₂MnAl_1-xSi_x Heusler compounds", arXiv:1807.02209.

  ---

• Hidefumi Takahashi, Shintaro Ishiwata, Ryuji Okazaki, Yukio Yasui, Ichiro Terasaki, "Enhanced thermopower via spin-state modification", arXiv:1807.00551.

  ---

• Yosuke Goto, Akira Miura, Ryosuke Sakagami, Yoichi Kamihara, Chikako Moriyoshi, Yoshihiro Kuroiwa, and Yoshikazu Mizuguchi, "Synthesis, Crystal Structure, and Thermoelectric Properties of Layered Antimony Selenides REOSbSe₂ (RE = La, Ce)", J. Phys. Soc. Jpn. 87, 074703 (2018).
• Sobhit Singh, QuanSheng Wu, Changming Yue, Aldo H. Romero, Alexey A. Soluyanov, "Topological Thermoelectricity in Metals", arXiv:1806.11406.

  ---

• Ji-Zhu Hu, Bin Liu, Jun Zhou, Baowen Li and Yuanyuan Wang, "Enhanced thermoelectric cooling performance with graded thermoelectric materials", Jpn. J. Appl. Phys. 57 071801 (2018).

  ---

• Yukari Katsura, Hidenori Takagi and Kaoru Kimura, "Roles of Carrier Doping, Band Gap, and Electron Relaxation Time in the Boltzmann Transport Calculations of a Semiconductor’s Thermoelectric Properties", Materials Transactions, Vol.59 No.07 (2018) 1013.
• Shimpei Kuwahara, Sora-at Tanusilp, Yuji Ohishi, Hiroaki Muta, Shinsuke Yamanaka and Ken Kurosaki, "Synthesis of High-Density Bulk Tin Monoxide and Its Thermoelectric Properties", Materials Transactions, Vol.59 No.07 (2018) 1022.
• Wanthana Silpawilawan, Yuji Ohishi, Hiroaki Muta, Shinsuke Yamanaka and Ken Kurosaki, "Thermoelectric Properties of p-Type Half-Heusler Compounds FeNb_0.9M_0.1Sb (M = Ti, Zr, Hf)", Materials Transactions, Vol.59 No.07 (2018) 1030.
• H. Kunioka, 2, H. Obara, A. Yamamoto and T. Iida, "Observation of Interface between Thermoelectric Material Zn₄Sb₃ and Electrodes by Resistance Scanning and Seebeck Coefficient Mapping Techniques", Materials Transactions, Vol.59 No.07 (2018) 1035.
• Yuta Hayashibara, Kei Hayashi, Ikumi Ando, Masataka Kubouchi, Yohei Ogawa, Wataru Saito and Yuzuru Miyazaki, "Fabrication and Thermoelectric Properties of Al/Mg₂Si Composite Materials", Materials Transactions, Vol.59 No.07 (2018) 1041.
• Rico Schmidt, Francis Wilken, Tamara S. Nunner, Piet W. Brouwer, "Boltzmann approach to the longitudinal spin Seebeck effect", arXiv:1806.10445.

  ---

• N. S. Kirsanov, Z. B. Tan, D. S. Golubev, P. J. Hakonen, G. B. Lesovik, "Heat Switch and Thermoelectric Effects Based on Split Cooper Pairs and Elastic Co-tunneling", arXiv:1806.09838.

  ---

• Ryo Matsumoto, Zhufeng Hou, Hiroshi Hara, Shintaro Adachi, Hiroyuki Takeya, Kiyoyuki Terakura, Yoshihiko Takano, "Two Pressure-induced Superconducting Transitions in SnBi₂Se₄ Explored by Data-driven Materials Search: New Approach to Develop Novel Functional Materials Including Thermoelectric and Superconducting Materials", arXiv:1806.09284.
• Uday Chopra, Mohd Zeeshan, Shambhawi Pandey, Harish K. Singh, Jeroen van den Brink, Hem C. Kandpal, "Polytypism at its best: improved thermoelectric performance in Li based Nowotony-Juza phases", arXiv:1806.09505.
• Xufeng Wang, Evan Witkoske, Jesse Maassen, Mark Lundstrom, "LanTraP: A code for calculating thermoelectric transport properties with the Landauer formalism", arXiv:1806.08888.

  ---

• Pavel E. Dolgirev, Mikhail S. Kalenkov, Andrei D. Zaikin, "Topology-controlled thermopower oscillations in multiterminal Andreev interferometers", arXiv:1806.06882.

  ---

• Keisuke Masuda, Ken-ichi Uchida, Ryo Iguchi, Yoshio Miura, "First-Principles Study of Anisotropic Magneto-Peltier Effect", arXiv:1806.06521.
• Satya N. Guin, Kaustuv Manna, Jonathan Noky, Sarah J. Watzman, Chenguang Fu, Nitesh Kumar, Walter Schnelle, Chandra Shekhar, Yan Sun, Johannes Gooth, Claudia Felser, "Anomalous Nernst effect beyond the magnetization scaling relation in the ferromagnetic Heusler compound Co₂MnGa", arXiv:1806.06753.
• Arup Ghosh, Avirup De, Sunil Nair, "Large anomalous Nernst effect across the magneto-structural transition in bulk Ni-Co-Mn-Sn full Heusler alloy", arXiv:1806.06675.

  ---

• Qing Xi, Zhongwei Zhang, Tsuneyoshi Nakayama, Jie Chen, Jun Zhou, Baowen Li, "Off-center Rattling Triggers High-Temperature Thermal Transport in Thermoelectric lathrates: Non-Perturbative Approach", arXiv:1806.04871.

  ---

• Robert Hussein, Michele Governale, Sigmund Kohler, Wolfgang Belzig, Francesco Giazotto, Alessandro Braggio, "Nonlocal thermoelectricity in a Cooper-pair splitter", arXiv:1806.04569.
• Natalya A. Zimbovskaya, "Thermoelectric efficiency of single-molecule junctions with long molecular linkers", arXiv:1806.04539.

  ---

• Xiaoxue Liu, Tingxin Li, Po Zhang, L. N. Pfeiffer, K. W. West, Chi Zhang, Rui-Rui Du, "Thermopower and Nernst measurements in a half-filled lowest Landau level", arXiv:1806.03425.

  ---

• D. A. Pshenay-Severin, Y. V. Ivanov, A. T. Burkov, "The effect of interband electron scattering on thermoelectric properties of the novel topological compound CoSi", arXiv:1805.11334.
• Krzysztof Ptaszynski, "Coherence-enhanced constancy of a quantum thermoelectric generator", arXiv:1805.11301.

  ---

  [先頭]
• Ji-Chang Ren, Jian-Sheng Wang, "Origin of unexpected large Seebeck effect in SrTiO₃: nonperturbative polaron study from ab initio cumulant expansion", arXiv:1805.10722.

  ---

• Kodai Wada, Koji Tomita and Masayuki Takashiri, "Thermoelectric properties of bismuth telluride nanoplate thin films determined using combined infrared spectroscopy and first-principles calculation", Jpn. J. Appl. Phys. 57 06HC02 (2018).
• Satoshi Morikawa, Yuji Satake and Masayuki Takashiri, "Theoretical and experimental analyses to determine the effects of crystal orientation and grain size on the thermoelectric properties of oblique deposited bismuth telluride thin films", Jpn. J. Appl. Phys. 57 06HE02 (2018).
• Koichi Nakamura, "First-principles simulation on thermoelectric propertiesof transition metal dichalcogenide monolayers", Jpn. J. Appl. Phys. 57 06HE04 (2018).
• Chung-Hyun Ban, Eun-Sang Park, Jae-Hun Park and Hye-Keun Oh, "Modeling of thermomechanical changes of extreme-ultraviolet mask and their dependence on absorber variation", Jpn. J. Appl. Phys. 57 06HA01 (2018).

  ---

• Marcin Matusiak, Krzysztof Rogacki, Thomas Wolf, "Thermoelectric anisotropy in Ba(Fe_1-xCo_x)₂As₂ iron-based superconductor", arXiv:1805.08510.

  ---

• Zahra Sartipi, Javad Vahedi, "Enhancing Thermoelectric Properties Through a Three-Terminal Benzene Molecule", arXiv:1805.07223.

  ---

• Jiangang He, Yi Xia, S. Shahab Naghavi, Vidvuds Ozolins, Chris Wolverton, "Thermoelectric Alchemy: Designing A Chemical Analog to PbTe with Intrinsic High Band Degeneracy and Low Lattice Thermal Conductivity", arXiv:1805.06433.

  ---

• Robert S. Whitney, Keiji Saito, "Thermoelectric coefficients and the figure of merit for large open quantum dots", arXiv:1805.05166.
• Robert S. Whitney, Rafael Sanchez, Janine Splettstoesser, "Quantum thermodynamics of nanoscale thermoelectrics and electronic devices", arXiv:1805.04297.

  ---

• Kamil Ciesielski, Karol Synoradzki, Izabela Wolanska, Pawel Stuglik, Dariusz Kaczorowski, "High-temperature thermoelectric properties of half-Heusler phases Er_1−xHo_xNiSb", arXiv:1805.02435.
• Yuma Iwasaki, Ichiro Takeuchi, Valentin Stanev, Aaron Gilad Kusne, Masahiko Ishida, Akihiro Kirihara, Kazuki Ihara, Ryohto Sawada, Koichi Terashima, Hiroko Someya, Ken-ichi Uchida, Shinichi Yorozu, Eiji Saitoh, "Machine-learning guided discovery of a high-performance spin-driven thermoelectric material", arXiv:1805.02303.
• J. Eduardo Gonzalez, Vicenta Sanchez, Chumin Wang, "Resonant thermoelectric transport in atomic chains with Fano defects", arXiv:1805.02271.

  ---

• I-Ju Chen, Adam Burke, Artis Svilans, Heiner Linke, Claes Thelander, "Thermoelectric Power Factor Limit of a 1D Nanowire", Phys. Rev. Lett. 120, 177703 (2018)[arXiv:1709.10511].
• Arnaud le Febvrier, Ngo Van Nong, Gregory Abadias and Per Eklund, "P-type Al-doped Cr-deficient CrN thin films for thermoelectrics", Appl. Phys. Express 11, 051003(2018).
• Akira Nagaoka, Taizo Masuda, Shintaro Yasui, Tomoyasu Taniyama and Yoshitaro Nose, "The single-crystal multinary compound Cu₂ZnSnS₄ as an environmentally friendly high-performance thermoelectric material", Appl. Phys. Express 11, 051203(2018).

  ---

• Shenghui Zhang, Xiaobin Niu, Yiqun Xie, Mingyan Chen, Hezhu Shao, Yin Wang, Yibin Hu, "High intrinsic ZT in InP₃ monolayer at room temperature", arXiv:1804.09868.
• Yoshihiko Okamoto, Taichi Wada, Youichi Yamakawa, Takumi Inohara, Koshi Takenaka, "Large Thermoelectric Power Factor in One-Dimensional Telluride Nb₄SiTe₄ and Substituted Compounds", Appl. Phys. Lett. 112, 173905 (2018)[arXiv:1804.09867].

  ---

• Junsoo Park, Yi Xia, Vidvuds Ozolins, "High n-type thermoelectric power factor and efficiency in Ba₂BiAu", arXiv:1804.09392.
• Juan F. Sierra, Ingmar Neumann, Jo Cuppens, Bart Raes, Marius V. Costache, Sergio O. Valenzuela, "Thermoelectric spin voltage in graphene", Nature Nanotechnology, 13, 107 (2018)[arXiv:1804.09423].
• J. E. Barrios Vargas, B. Mortazavi, A. W. Cummings, R. Martinez-Gordillo, M. Pruneda, L. Colombo, T. Rabczuk, S. Roche, "Thermoelectric transport in co-planar polycrystalline graphene-hBN heterostructure", arXiv:1804.09272.

  ---

• Maciej J. Winiarski, Kaja Bilinska, Kamil Ciesielski, Dariusz Kaczorowski, "Thermoelectric performance of p-type half-Heusler alloys ScMSb (M = Ni, Pd, Pt) by ab initio calculations", arXiv:1804.08423.
• Subrata Chakraborty, Tero T. Heikkilä, "Thermoelectric radiation detector based on a superconductor-ferromagnet junction: calorimetric regime", arXiv:1804.08319.

  ---

• Vassilios Vargiamidis, Samuel Foster, Neophytos Neophytou, "Thermoelectric power factor in nanostructured materials with randomized nanoinclusions", arXiv:1804.07660.

  ---

• Benjamin Geisler, Rossitza Pentcheva, "Confinement- and strain-induced enhancement of thermoelectric properties in LaNiO₃/LaAlO₃(001) superlattices", arXiv:1804.07070.
• David M T Kuo, C. C. Chen, Yia-Chung Chang, "Optimizing thermoelectric efficiency of quantum dot nanowires at room temperature", arXiv:1804.07174.

  ---

• Sergey Smirnov, "Universal Majorana thermoelectric noise", arXiv:1804.06589.
• S. Shahab Naghavi, Jiangang He, Yi Xia, C. Wolverton, "Pd₂Se₃ Monolayer: A Promising Two Dimensional Thermoelectric Material with Ultralow Lattice Thermal Conductivity and High Power Factor", arXiv:1804.06756.

  ---

• Sungmin Woo, Sang A Lee, Hyeona Mun, Young Gwan Choi, Chan June Zhung, Soohyeon Shin, Morgane Lacotte, Adrian David, Wilfrid Prellier, Tuson Park, Won Nam Kang, Jong Seok Lee, Sung Wng Kim, Woo Seok Choi, "Enhanced magnetic and thermoelectric properties in epitaxial polycrystalline SrRuO₃ thin film", arXiv:1804.06077.

  ---

  [先頭]
• I. Pletikosic, F. von Rohr, P. Pervan, P. K. Das, I. Vobornik, R. J. Cava, T. Valla, "Band structure of a IV-VI black phosphorus analog and thermoelectric SnSe", Phys. Rev. Lett. 120, 156403 (2018)[arXiv:1707.04289].
• C. Wang, Yunshan Cao, X. R. Wang, Peng Yan, "Interplay of Wave Localization and Turbulence in Spin Seebeck Effect", arXiv:1804.05157.

  ---

• Rina Takashima, Yuki Shiomi, Yukitoshi Motome, "Nonreciprocal spin Seebeck effect in antiferromagnets", arXiv:1804.03780.

  ---

• Peter Zahn, "Universal Limits of Thermopower and Figure of Merit from Transport Energy Statistics", arXiv:1804.02774.

  ---

• L. Chotorlishvili, X.-G. Wang, Z. Toklikishvili, J. Berakdar, "Thermoelastic enhancement of the magnonic spin Seebeck effect in thin films and bulk samples", arXiv:1804.02185.
• K. Knizek, M. Pashchenko, P. Levinsky, O. Kaman, P. Jiricek, J. Hejtmanek, M. Soroka, J. Bursik, "Spin Seebeck effect in -Fe O thin layer with high coercive field", arXiv:1804.02159.
• Ravindra G. Bhardwaj, Paul C Lou, Sandeep Kumar, "Giant enhancement in Rashba spin-Seebeck effect in NiFe/p-Si thin films", arXiv:1804.01625(physica status solidi (RRL) Rapid Research Letters 2018).

  ---

• Susumu Minami, Fumiyuki Ishii, Yo Pierre Mizuta, Mineo Saito, "First-principles study on thermoelectric properties of half-Heusler compounds CoMSb(M=Sc, Ti, V, Cr, and Mn)", arXiv:1804.00297.
• G. Gomez-Silva, P. A. Orellana, E. V. Anda, "Enhancement of the thermoelectric efficiency in a T-shaped quantum dot system in the linear and nonlinear regimes", J. App. Phys. 123, 085706 (2018).

  ---

• Ning-Xuan Yang, Yan-Feng Zhou, Peng Lv, Qing-Feng Sun, "Gate voltage controlled thermoelectric figure of merit in three-dimensional topological insulator nanowires", arXiv:1803.10549.

  ---

• Kisung Chae, Seoung-Hun Kang, Seon-Myeong Choi, Duck Young Kim, Young-Woo Son, "Enhanced Thermoelectric Properties in Silicon with a Nanopore Array", arXiv:1803.09279.

  ---

• Tatsuyoshi Ono, Satoshi Hirata, Yoshiteru Amemiya, Tetsuo Tabei and Shin Yokoyama, "Anomalous Nernst effect of Ni-Al alloys and application to spin Seebeck devices", Jpn. J. Appl. Phys. 57 (2018) 04FN05.
• Kohei Kudo, Shinya Yamada, Jinichiro Chikada, Yuta Shimanuki, Yoshiaki Nakamura and Kohei Hamaya, "Effect of Fe-V nonstoichiometry on electrical and thermoelectric properties of Fe₂VAl films", Jpn. J. Appl. Phys. 57 (2018) 040306.
• Tatsuyoshi Ono, Satoshi Hirata, Yoshiteru Amemiya, Tetsuo Tabei and Shin Yokoyama, "Long annealing effect on spin Seebeck devices fabricated using Ce_xY_3-xFe₅O₁₂ deposited by metal-organic decomposition", Jpn. J. Appl. Phys. 57 (2018) 04FN06.
• Hiromasa Shimizu and Takahiro Shimodaira, "Optimization of figure of merit in magnetoplasmonic waveguides with Fe/Au multilayer for optical isolator based on nonreciprocal coupling on Si waveguides", Jpn. J. Appl. Phys. 57 (2018) 04FN07.

  ---

• Yo Pierre Mizuta, Hikaru Sawahata, Fumiyuki Ishii, "Large Anomalous Nernst Coefficient in a Doped Skyrmion Crystal Chern Insulator", arXiv:1803.08148.

  ---

• Olena Gomonay, Kei Yamamoto, Jairo Sinova, "Spin caloric effects in antiferromagnets assisted by an external spin current", arXiv:1803.07949.
• Kristian Berland, Clas Persson, "Thermoelectric transport of GaAs, InP, and PbTe: Hybrid functional with k·p interpolation versus scissor-corrected generalized gradient approximation", arXiv:1803.07854.
• F. Serrano-Sanchez, J. Prado-Gonjal, N. M. Nemes, N. Biskup, M. Varela, O. J. Dura, J. L. Martinez, M. T. Fernandez-Diaz, F. Fauth, J. A. Alonso,

  ---

• Y. Gao, D. Xiao, "Theory of Orbital Magnetic Quadrupole Moment and Nonlinear Anomalous Thermoelectric Transport", arXiv:1803.06726.

  ---

• Chang-Jong Kang, Gabriel Kotliar, "Study for material analogs of FeSb2: material design for thermoelectric materials", Physical Review Materials 2, 034604 (2018).

  ---

• Hiroto Adachi, Yutaka Yamamoto, Masanori Ichioka, "Spin Seebeck effect in a simple ferromagnet near Tc: A Ginzburg-Landau approach", arXiv:1803.04602.
• Sigurdur I. Erlingsson, Jens H. Bardarson, Andrei Manolescu, "Thermoelectric current in topological insulator nanowires with impurities", arXiv:1803.04507.

  ---

• Joel Cramer, Ulrike Ritzmann, Bo-Wen Dong, Samridh Jaiswal, Zhiyong Qiu, Eiji Saitoh, Ulrich Nowak, Mathias Kläui, "Spin transport across antiferromagnets induced by the spin Seebeck effect", arXiv:1803.03416.
• Min Hong, Zhi-Gang Chen, Jin Zou, "Fundamental and Progress of Bi₂Te₃-based Thermoelectric Materials", arXiv:1803.03386.

  ---

• Evan Witkoske, Xufeng Wang, Jesse Maassen, Mark Lundstrom, "Identifying better thermoelectric materials: A generalized B-factor strategy", arXiv:1803.00995.

  ---

• Parijat Sengupta, Junxia Shi, "Spin-dependent magneto-thermopower of narrow-gap lead chalcogenide quantum wells", arXiv:1802.10350.

  ---

• Timo Noack, Halyna Yu. Musiienko-Shmarova, Thomas Langner, Frank Heussner, Viktor Lauer, Björn Heinz, Dmytro A. Bozhko, Vitaliy I. Vasyuchka, Anna Pomyalov, Victor S. L'vov, Burkard Hillebrands, Alexander A. Serga, "Spin Seebeck effect and ballistic transport of quasi-acoustic magnons in room-temperature yttrium iron garnet films", arXiv:1802.09593.

  ---

• Chenguang Fu, Thomas Scaffidi, Jonah Waissman, Yan Sun, Rana Saha, Sarah J. Watzman, Abhay K. Srivastava, Guowei Li, Walter Schnelle, Peter Werner, Machteld E. Kamminga, Subir Sachdev, Stuart S. P. Parkin, Sean A. Hartnoll, Claudia Felser, Johannes Gooth, "Thermoelectric signatures of the electron-phonon fluid in PtSn₄", arXiv:1802.09468.

  ---

  [先頭]
• Enamul Haque, M. Anwar Hossain, "High Seebeck coefficient and ultra-low lattice thermal conductivity in Cs₂InAgCl₆", arXiv:1802.08136.
• V. Tayari, B.V. Senkovskiy, D. Rybkovskiy, N. Ehlen, A. Fedorov, C.-Y. Chen, J. Avila, M. Asensio, A. Perucchi, P. di Pietro, L. Yashina, I. Fakih, N. Hemsworth, M. Petrescu, G. Gervais, A. Grüneis, T. Szkopek, "Quasi-two-dimensional thermoelectricity in SnSe", Phys. Rev. B97, 045424 (2018).
• H. H. Wang, X. G. Luo, W. W. Chen, N. Z. Wang, B. Lei, F. B. Meng, C. Shang, L. K. Ma, T. Wu, X. Dai, Z. F. Wang, X. H. Chen, "Magnetic-field enhanced high-thermoelectric performance in topological Dirac semimetal Cd₃As₂ crystal", arXiv:1802.07868.

  ---

• Jan M. Tomczak, "Thermoelectricity in correlated narrow-gap semiconductors ", arXiv:1802.07220.

  ---

• KmRubi, R. Mahendiran, "Large thermoelectric response in a diluted ferroelectric system: Ba_0.7Eu_0.3Ti_1-xNb_xO3", arXiv:1802.06337.
• Mohd Zeeshan, Tashi Nautiyal, Jeroen van den Brink, Hem C. Kandpal, "FeTaSb and FeMnTiSb as promising thermoelectric materials: An ab initio approach", arXiv:1802.06254.
• Gaomin Tang, Juzar Thingna, Jian Wang, "Thermodynamics of energy, charge and spin currents in thermoelectric quantum-dot spin valve", arXiv:1802.06549.

  ---

• Jiangang He, S. Shahab Naghavi, Vinay I. Hegde, Maximilian Amsler, Chris Wolverton, "Designing and discovering a new family of semiconducting quaternary Heusler compounds based on the 18-electron rule", arXiv:1802.04875.

  ---

• Mamoru Ishizawa, Hiroyuki Fujishiro, Tomoyuki Naito, Akihiko Ito and Takashi Goto, "Crystal orientation, crystallinity, and thermoelectric properties of Bi_0.9Sr_0.1CuSeO epitaxial films grown by pulsed laser deposition", Jpn. J. Appl. Phys. 57, 025502(2018).

  ---

• Z. Z. Zhou, H. J. Liu, D. D. Fan, B. Y. Zhao, C. Y. Sheng, G. H. Cao, S. Huang, "First-principles study of the thermoelectric properties of quaternary tetradymite BiSbSeTe₂", arXiv:1802.02811.
• Liu-Cheng Chen, Bin-Bin Jiang, Hao Yu, Hong-Jie Pang, Lei Su, Xun Shi, Li-Dong Chen, Xiao-Jia Chen, "Thermoelectric properties of polycrystalline palladium sulfide", arXiv:1802.02761.

  ---

• Torsten Huebner, Ulrike Martens, Jakob Walowski, Markus Münzenberg, Andy Thomas, Günter Reiss, Timo Kuschel, "Thermal conductivity of thin insulating films determined by tunnel magneto-Seebeck effect measurements and finite-element modeling", arXiv:1802.01846.

  ---

• Ravindra G Bhardwaj, Paul C Lou, Sandeep Kumar, "Spin Seebeck effect and thermal spin galvanic effect in Ni80Fe20/p-Si bilayers", arXiv:1802.00132.

  ---

• Takahiro Yamamoto, Hidetoshi Fukuyama, "Possible High Thermoelectric Power in Semiconducting Carbon Nanotubes ~A Case Study of Doped One-Dimensional Semiconductors~", J. Phys. Soc. Jpn. 87, 024707 (2018).

  ---

• P. Wang, L.-F. Zhou, S.-W. Jiang, Z.-Z. Luan, D.-J. Shu, H.-F. Ding, and D. Wu, "Unidirectional Spin-Wave-Propagation-Induced Seebeck Voltage in a PEDOT:PSS/YIG Bilayer", Phys. Rev. Lett. 120, 047201 (2018).
• B. Hinterleitner, P. Fuchs, J. Rehak, S. Steiner, M. Kishimoto, R. Moser, R. Podloucky, E. Bauer, "Stoichiometric and off-stoichiometric full Heusler Fe₂V_1−xW_xAl thermoelectric systems", arXiv:1801.08966.

  ---

• Xiao-Qi Wang, Shu-Feng Zhang, Hu Han, Guang-Yu Yi, Wei-Jiang Gong, "Enhancement of the thermoelectric effect due to the Majorana zero modes coupled to one quantum-dot system", arXiv:1801.08688.

  ---

• Hong-Jie Pang, Chen-Guang Fu, Hao Yu, Liu-Cheng Chen, Tie-Jun Zhu, Xiao-Jia Chen, "Origin of efficient thermoelectric performance in half-Heusler FeNb_0.8Ti_0.2Sb", arXiv:1801.07935.

  ---

• Hirofumi Kakemoto, "Thermoelectric enhanced ZT regime calculated by Fermi integral method", arXiv:1801.07361.

  ---

• M. Matsuo, Y. Ohnuma, T. Kato, and S. Maekaway, "Spin Current Noise of the Spin Seebeck Effect and Spin Pumping", Phys. Rev. Lett. 120, 037201 (2018).
• Enamul Haque, M. Anwar Hossain, "Enhanced thermoelectric performance in Ca substituted Sr₃SnO", arXiv:1801.06899.

  ---

• E. Thiebaut, C. Goupil, F. Pesty, Y. D'Angelo, G. Guegan, P. Lecoeur, "Maximization of the thermoelectric cooling of graded Peltier by analytical heat equation resolution", arXiv:1801.05175.

  ---

• Maxime Markov, Xixiao Hu, Han-Chun Liu, Naiming Liu, Joseph Poon, Keivan Esfarjani, Mona Zebarjadi, "Semi-metals as potential thermoelectric materials: case of HgTe", arXiv:1801.04324.
• Amrita Mukherjee, Atanu Nandy, "Spectral engineering and tunable thermoelectric behavior in a quasiperiodic ladder network", arXiv:1801.04724.

  ---

• 石田真彦、「スピン流を用いた熱電変換素子開発の動向」、応用物理、第８７巻、第１号、１１頁（２０１８）.
• Ulrike Martens, Torsten Huebner, Henning Ulrichs, Oliver Reimer, Timo Kuschel, Ronnie R. Tamming, Chia-Lin Chang, Raanan I. Tobey, Andy Thomas, Markus Münzenberg, Jakob Walowski, "Anomalous Nernst effect on the nanometer scale: Exploring three-dimensional temperature gradients in magnetic tunnel junctions", arXiv:1801.04186.

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• T. Nagayama, K. Terashima, T. Wakita, H. Fujiwara, T. Fukura, Y. Yano, K. Ono, H. Kumigashira, O. Ogiso, A. Yamashita, Y. Takano, H. Mori, H. Usui, M. Ochi, K. Kuroki, Y. Muraoka, T. Yokoya, "Direct observation of double valence-band extrema and anisotropic effective masses of the thermoelectric material SnSe", Jpn. J. Appl. Phys. 57, 010301(2018).

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  [先頭]
• M. Anwar Hossain, Md. Taslimur Rahman, Morioum Khatun, Enamul Haque, "Structural, elastic, electronic, magnetic and thermoelectric properties of new quaternary Heusler compounds CoZrMnX (X=Al, Ga, Ge, In)", arXiv:1801.03719.
• Enamul Haque, M. Anwar Hossain, "Ultra-low lattice thermal conductivity in Cs₂BiAgX₆ (X=Cl, Br): Potential thermoelectric materials", arXiv:1801.03703.
• Lukasz Karwacki, Jozef Barnas, "Thermoelectric properties of a quantum dot coupled to magnetic leads by Rashba spin-orbit interaction", arXiv:1801.03700.

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• Zahra Golsanamlou, Meysam Bagheri Tagani, Hamid Rahimpour Soleimani, "Large thermoelectric efficiency of doped polythiophene junction: a density functional study", arXiv:1801.03281.

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• Phanibhusan S. Mahapatra, Kingshuk Sarkar, H. R. Krishnamurthy, Subroto Mukerjee, Arindam Ghosh, "Seebeck Coefficient of a Single van der Waals Junction in Twisted Bilayer Graphene", arXiv:1801.01269.

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• D. D. Fan, H. J. Liu, L. Cheng, J. H. Liang, P. H. Jiang, "First-principles study of the effects of electron-phonon coupling on the thermoelectric properties: a case study of SiGe compound", arXiv:1801.00130.

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• San-Dong Guo, "Predicted Janus monolayer ZrSSe with enhanced n-type thermoelectric properties compared with monolayer ZrS₂", arXiv:1712.09064.
• L. N. Lukyanova, I. V. Makarenko, O. A. Usov, P. A. Dementev, "Scanning tunneling spectroscopy of the surface states of Dirac fermions in thermoelectrics based on bismuth telluride", arXiv:1712.08797.

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• Georg K. H. Madsen, Jesus Carrete, Matthieu J. Verstraete, "BoltzTraP2, a program for interpolating band structures and calculating semi-classical transport coefficients", arXiv:1712.07946.

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• Xin Liang, David Bell, David R. Clarke, "Single Layer In-O Atomic Sheets as Phonon and Electron and Barriers in ZnO-In2O3 Natural Superlattices: Implications for Thermoelectricity", arXiv:1712.06728.

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• Dominik Suszalski, Grzegorz Rut, Adam Rycerz, "Lifshitz transition and thermoelectric properties of bilayer graphene", arXiv:1712.05857.

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• Anveeksh Koneru, Terence D. Musho, "Predicting the Spin Seebeck Voltage in Spin-polarized Materials: A Quantum Mechanical Transport Model Approach", arXiv:1712.04074.

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• Sun-Yong Hwang, Pablo Burset, Björn Sothmann, "Odd-frequency Superconductivity Revealed by Thermopower", arXiv:1712.03067.
• Arjun Mani, Colin Benjamin, "Helical thermoelectrics and refrigeration", arXiv:1712.03175.

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• Panagiota Bougiatioti, Christoph Klewe, Daniel Meier, Orestis Manos, Olga Kuschel, Joachim Wollschläger, Laurence Bouchenoire, Simon D. Brown, Jan-Michael Schmalhorst, Günter Reiss, and Timo Kuschel, "Quantitative Disentanglement of the Spin Seebeck, Proximity-Induced, and Ferromagnetic-Induced Anomalous Nernst Effect in Normal-Metal-Ferromagnet Bilayers", Phys. Rev. Lett. 119, 227205 (2017).
• Ying Peng, Lei Miao, Chao Li, Rong Huang, Daisuke Urushihara, Toru Asaka, Osamu Nakatsuka and Sakae Tanemura, "Improved thermoelectric property of B-doped Si/Ge multilayered quantum dot films prepared by RF magnetron sputtering", Jpn. J. Appl. Phys. 57[1S], 01AF03(2018).

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• Masashige Onoda and Takuma Sato, "Polaronic Nonmetal-Correlated Metal Crossover System β'-Cu_xV₂O₅ with Anharmonic Copper Oscillation and Thermoelectric Conversion Performance", J. Phys. Soc. Jpn. 86, 124801 (2017).

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• A. Rezaei, A. Kamra, P. Machon, W. Belzig, "Spin-flip Enhanced Thermoelectricity in Superconductor-Ferromagnet Bilayers", arXiv:1711.11538.

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• Shigeru Katsuyama, Yusuke Kusafuka and Toshihiro Tanaka, "Synthesis of Bi_0.5S_1.5Te₃ Sintered Composite with Dispersed Ionic Liquid and Investigation of Thermoelectric Properties", Materials Transactions, Vol.58, No.12, 1749(2017).

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• Pablo Roura-Bas, Liliana Arrachea, Eduardo Fradkin, "Enhanced thermoelectric response in the fractional quantum Hall effect", arXiv:1711.09721.

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• Guodong Li, Sergey I. Morozov, Qingjie Zhang, Qi An, Pengcheng Zhai, and G. Jeffrey Snyder, "Enhanced Strength Through Nanotwinning in the Thermoelectric Semiconductor InSb", Phys. Rev. Lett. 119, 215503 (2017).

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• M. Ikeda, H. Euchner, X. Yan, P. Tomes, A. Prokofiev, L. Prochaska, G. Lientschnig, R. Svagera, S. Hartmann, E. Gati, M. Lang, S. Paschen, "Kondo-like phonon scattering in thermoelectric clathrates", arXiv:1711.08627.

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• Samuel Foster, Mischa Thesberg, Neophytos Neophytou, "Thermoelectric power factor of nanocomposite materials from two-dimensional quantum transport simulations", arXiv:1711.08397.

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• Marcin Matusiak, Michal Babij, Thomas Wolf, "Anisotropy of the Seebeck and Nernst coefficients in parent compounds of the iron-based superconductors", arXiv:1711.05831.

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• T. K. T. Nguyen, M. N. Kiselev, "Seebeck effect on a weak link between Fermi and non-Fermi liquids", arXiv:1711.02617.

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• Kevin Delime-Codrin, Tatsuya Yamada, Akio Yamamoto, Robert Sobota, Masaharu Matsunami and Tsunehiro Takeuchi, "Carrier concentration dependence of thermoelectric properties of Fe(V_1-x,Ti_x)Sb half-Heusler phase", Jpn. J. Appl. Phys. 56[11], 111202(2017).

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• Jens Schulenborg, Angelo Di Marco, Joren Vanherck, Maarten R. Wegewijs, Janine Splettstoesser, "Thermoelectrics of Interacting Nanosystems -- Exploiting Superselection instead of Time-Reversal Symmetry", arXiv:1711.01223.

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  [先頭]
• Xinlin Yan, Matthias Ikeda, Long Zhang, Ernst Bauer, Peter Rogl, Gerald Giester, Andrey Prokofiev, Silke Paschen, "Suppression of vacancies boosts thermoelectric performance in type-I clathrates ", arXiv:1710.11536.

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• Jin-Peng Li, Qian-Qian Zhao, Chang Liu, Xiao-Chun Wang and Yu-Jun Yang, "Thermoelectric Properties of Ce₃Te₄ under High Pressure: First-Principles Calculation", Materials Transactions, Vol.58, No.11, 1601(2017).
• Shinya Yamada, Kohei Kudo, Ryo Okuhata, Jinichiro Chikada, Yoshiaki Nakamura and Kohei Hamaya, "Low thermal conductivity of thermoelectric Fe₂VAl films", Appl. Phys. Express 10, 115802(2017).
• Mioko Otsuka, Yasuhiro Hasegawa, Taichi Arisaka, Ryo Shinozaki and Hiroyuki Morita, "Dimensionless figure of merit and its efficiency estimation for transient response of thermoelectric module based on impedance spectroscopy", Appl. Phys. Express 10, 115801(2017).

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• Thanh-Tra Vu, Thi-Kim-Quyen Nguyen, Thi-My-The Nguyen, Van-Cuong Nguyen, Van-Truong Tran, "Enhancement of the Seebeck effect in bilayer armchair graphene nanoribbons by tuning the electric fields", arXiv:1710.09187.

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• Guido Menichetti, Giuseppe Grosso, Giuseppe Pastori Parravicini, "Analytic treatment of the thermoelectric properties for two coupled quantum dots threaded by magnetic fields", arXiv:1710.08821.
• Pascal Gehring, Achim Harzheim, Jean Spiece, Yuewen Sheng, Gregory Rogers, Charalambos Evangeli, Aadarsh Mishra, Benjamin J. Robinson, Kyriakos Porfyrakis, Jamie H. Warner, Oleg V. Kolosov, G. Andrew D. Briggs, Jan A. Mol, "Field-Effect Control of Graphene-Fullerene Thermoelectric Nanodevices", arXiv:1710.08344.

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• Michael Wais, Marco Battiato, Karsten Held, "Importance of Schottky barriers for wide-bandgap thermoelectric devices", arXiv:1710.07549.

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• Stephen Dongmin Kang, G. Jeffrey Snyder, "Transport property analysis method for thermoelectric materials: material quality factor and the effective mass model", arXiv:1710.06896.

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• Rongxiang Luo, Giuliano Benenti, Giulio Casati, Jiao Wang, "The best thermoelectric: The role of interactions", arXiv:1710.06646.

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• Shenshen Yan, Zhibin Gao, Yang Long, Jie Ren, "Directional Design of Materials Based on the Pareto Optimization: Application to Two-Dimensional Thermoelectric SnSe", arXiv:1710.05072.

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• Changjiang Liu, Stephen M. Wu, John E. Pearson, J. Samuel Jiang, N. d'Ambrumenil, Anand Bhattacharya, "Probing short-ranged order in spin-liquid Gd₃Ga₅O₁₂ by spin Seebeck effect", arXiv:1710.04269.

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• Xufeng Wang, Jesse Maassen, Mark Lundstrom, "On the Calculation of the Lorenz Numbers for Complex Thermoelectric Materials", arXiv:1710.03711.
• Taishan Zhu, Krishnan Swaminathan-Gopalan, Kelly Stephani, Elif Ertekin, "Thermoelectric phonon glass electron crystal via ion beam patterning of silicon", arXiv:1710.03375.

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• Shuofeng Zhang, Ben Xu, Yuanhua Lin, Cewen Nan, Wei Liu, "First-principles study of the layered thermoelectric material TiNBr", arXiv:1710.02495.

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• S. T. Rodriguez, I. Grosu, M. Crisan, I. Tifrea, "Thermoelectric transport properties in graphene connected molecular junctions", arXiv:1710.01433.

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• Daniel Olaya, Mikel Hurtado-Morales, Daniel Gomez, Octavio Alejandro Castaneda-Uribe, Zhen-Yu. Juang, Yenny Hernandez, "Large thermoelectric figure of merit in graphene layered devices at low temperature", arXiv:1710.01152.
• Mukesh K. Choudhary, P Ravindran, "Search for Thermoelectrics with High Figure of Merit in half-Heusler compounds with multinary substitution", arXiv:1710.01012.

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• Jan Loos, Thomas Koch, Holger Fehske, "Heating and thermoelectric transport in a molecular junction", arXiv:1710.00493.

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• Yawar Mohammadi, "Photo-induced spin and valley-dependent Seebeck effect in the low-buckled Dirac materials", arXiv:1709.10357.
• Saurabh Singh, Shivprasad S. Shastri, Sudhir K. Pandey, "Theoretical Study of Thermopower Behavior of LaFeO₃ Compound in High Temperature Region", arXiv:1709.10327.

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• Takafumi D. Yamamoto, Hiroki Taniguchi, Yukio Yasui, Satoshi Iguchi, Takahiko Sasaki, Ichiro Terasaki, "Magneto-thermopower in the Weak Ferromagnetic Oxide CaRu_0.8Sc_0.2O₃: An Experimental Test for the Kelvin Formula in a Magnetic Material", J. Phys. Soc. Jpn. 86, 104707(2017).

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• T. T. Heikkilä, R. Ojajärvi, I.J. Maasilta, F. Giazotto, F. Bergeret, "Thermoelectric radiation detector based on superconductor/ferromagnet systems", arXiv:1709.08856.
• Ryuichi Itoh, Ryo Iguchi, Shunsuke Daimon, Koichi Oyanagi, Ken-ichi Uchida, Eiji Saitoh, "Magnetic-field-induced suppression of spin Peltier effect in Pt/Y₃Fe₅O₁₂ system at room temperature", arXiv:1709.08997.

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• Nguyen T. Hung, Ahmad R. T. Nugraha, Riichiro Saito, "A Universal Curve of Optimum Thermoelectric Figures of Merit for Bulk and Low-dimensional Semiconductors", arXiv:1709.08456.

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• Y. Shiomi, R. Takashima, D. Okuyama, G. Gitgeatpong, P. Piyawongwatthana, K. Matan, T. J. Sato, E. Saitoh, "Spin Seebeck effect in a polar antiferromagnet α-Cu₂V₂O₇", arXiv:1709.06330.
• J. Shan, L. J. Cornelissen, J. Liu, J. Ben Youssef, L. Liang, B. J. van Wees, "Criteria for accurate determination of the magnon relaxation length from the nonlocal spin Seebeck effect", arXiv:1709.06321.

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• T. Seki, R. Iguchi, K. Takanashi, K. Uchida, "Visualization of Anomalous Ettingshausen Effect in a Ferromagnetic Film: Direct Evidence of Different Symmetry from Spin Peltier Effect", arXiv:1709.05449.

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• Van-Truong Tran, Jerome Saint-Martin, Philippe Dollfus, Sebastian Volz, "High thermoelectric performance of graphite nanofibers", arXiv:1709.04515.

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  [先頭]
• Mohd Zeeshan, Jeroen van den Brink, Hem C. Kandpal, "Hole-doped cobalt-based Heusler phases as prospective high-performance high-temperature thermoelectrics", arXiv:1709.04243.

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• Guilherme A. Ribeiro, Lorenzo Paulatto, Raffaello Bianco, Ion Errea, Francesco Mauri, Matteo Calandra, "Anharmonic phonon spectra of PbTe and SnTe in the self-consistent harmonic approximation", arXiv:1709.03177.

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• Jiuning Hu, Tailung Wu, Jifa Tian, Nikolai Klimov, David Newell, Yong P. Chen, "Coulomb drag and counterflow Seebeck coefficient in bilayer-graphene double layers", arXiv:1709.02778.
• A. Khedri, V. Meden, T. A. Costi, "The influence of phonon-assisted tunneling on the linear thermoelectric transport through molecular quantum dots", arXiv:1709.02639.

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• Jeong-Hun Choi, Cheol-Min Hyun, Hyunjin Jo, Ji Hee Son, Ji Eun Lee and Ji-Hoon Ahn, "Thermoelectric elastomer fabricated using carbon nanotubes and nonconducting polymer", Jpn. J. Appl. Phys. 56[9], 095101(2017).

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• Myung-Chul Jung, K.-W. Lee, W. E. Pickett, "Perovskite ThTaN₃: a Large Thermopower Topological Crystalline Insulator", arXiv:1709.01224.

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• T. Seifert, S. Jaiswal, J. Barker, I. Razdolski, J. Cramer, O. Gueckstock, S. Watanabe, C. Ciccarelli, A. Melnikov, G. Jakob, S.T.B. Goennenwein, G. Woltersdorf, P.W. Brouwer, M. Wolf, M. Kläui, T. Kampfrath, "Launching magnons at the terahertz speed of the spin Seebeck effect", arXiv:1709.00768.

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• J. C. Klöckner, M. Matt, P. Nielaba, F. Pauly, J. C. Cuevas, "Thermal conductance of metallic atomic-size contacts: Phonon transport and Wiedemann-Franz law", arXiv:1709.00220.

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• Yasuo Nishina, Ryuji Okazaki,, Yukio Yasui, Fumihiko Nakamura, and Ichiro Terasaki, "Anomalous Thermoelectric Response in an Orbital-Ordered Oxide Near and Far from Equilibrium", J. Phys. Soc. Jpn. 86, 093707(2017).
• Masao Ogata and Hidetoshi Fukuyama, "Theory of Spin Seebeck Effects in a Quantum Wire", J. Phys. Soc. Jpn. 86, 094703(2017).
• Haruno Kunioka, Atsushi Yamamoto, Tsutomu Iida and Haruhiko Obara, "Electrical current dependence of the ionic conduction in Zn₄Sb₃", Applied Physics Express, Volume 10, Number 9, 095801(2017).

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• Maria Troppenz, Santiago Rigamonti, Claudia Draxl, "Predicting ground-state configurations and electronic properties of the thermoelectric clathrates Ba₈Al_xSi_46−x and Sr₈Al_xSi_46−x", arXiv:1708.08126.

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• Guang-Yu Guo, Tzu-Cheng Wang, "Large anomalous Nernst and spin Nernst effects in noncollinear antiferromagnets Mn₃X (X = Sn, Ge, Ga)", arXiv:1708.05933.

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• Raul E. Arias, Ignacio Salazar Landea, "Thermoelectric Transport Coefficients from Charged Solv and Nil Black Holes", arXiv:1708.04335.
• Guangzong Xing, Jifeng Sun, Yuwei Li, Xiaofeng Fan, Weitao Zheng, David J. Singh, "Efficient screening of thermoelectric materials from transport calculations", arXiv:1708.04499.
• Sebastian Tölle, Michael Dzierzawa, Ulrich Eckern, Cosimo Gorini, "Spin Hall magnetoresistance and spin Nernst magnetothermopower: role of the inverse spin galvanic effect", arXiv:1708.03165.
• Aniket Singha, Bhaskaran Muralidharan, "Incoherent scattering can favorably influence energy filtering in nanostructured thermoelectrics", arXiv:1708.03904.
• Akira Aiba, Firuz Demir, Satoshi Kaneko, Shintaro Fujii, Tomoaki Nishino, Kazuhito Tsukagoshi, Alireza Saffarzadeh, George Kirczenow, Manabu Kiguchi, "Controlling the thermoelectric effect by mechanical manipulation of the electron's quantum phase in atomic junctions", arXiv:1708.05176.

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• Kumar Gaurav, Shashank Sisodia, Sudhir K Pandey, "Calculation of Efficiency and Power Output by Considering Different Realistic Prospects for Recovering Heat from Automobile using Thermoelectric Generator", arXiv:1708.02920.

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• Sun-Yong Hwang, David Sanchez, Rosa Lopez, "Nonlinear electric and thermoelectric Andreev transport through a hybrid quantum dot coupled to ferromagnetic and superconducting leads", arXiv:1708.02451.
• Michael Mecklenburg, Bj^ouml;rn Kubala, Joachim Ankerhold, "Thermopower and dynamical Coulomb blockade in non-classical environments", arXiv:1708.02448.

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• M. K. Hooda, C. S. Yadav, "Enhanced thermopower and low thermal conductivity in p-type polycrystalline ZrTe₅", arXiv:1708.02049.
• Brandon L. Giles, Zihao Yang, John Jamison, Juan M. Gomez-Perez, Saül Velez, Luis E. Hueso, Felix Casanova, Roberto C. Myers, "Thermally Driven Long Range Magnon Spin Currents in Yttrium Iron Garnet due to Intrinsic Spin Seebeck Effect", arXiv:1708.01941.

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• Yi Wang, Yong-Jie Hu, Shun-Li Shang, Bi-Cheng Zhou, Zi-Kui Liu, Long-Qing Chen, "First-Principles Thermodynamic Theory of Seebeck Coefficients", arXiv:1708.01591.

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• Yi Wang, Yong-Jie Hu, Shun-Li Shang, Samad A. Firdosy, Kurt E. Star, Jean-Pierre Fleurial, Vilupanur A. Ravi, Long-Qing Chen, Zi-Kui Liu, "A First-principles approach to predict Seebeck coefficients: Application to La_3-xTe₄", arXiv:1708.00949.
• Shivprasad S. Shastri, Sudhir K. Pandey, "A comparative study of different exchange-correlation functionals in understanding structural, electronic and thermoelectric properties of Fe₂VAl and Fe₂TiSn compounds", arXiv:1708.01180.
• G. Bevilacqua, G. Grosso, G. Menichetti, G. Pastori Parravicini, "Thermoelectric efficiency of nanoscale devices in the linear regime", arXiv:1708.01124.

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• S. Huang, H. J. Liu, D. D. Fan, P. H. Jiang, J. H. Liang, G. H. Cao, J. Shi, "First-principles study of the thermoelectric properties of Zintl compound KSnSb", arXiv:1707.09456.

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• Jungmin Kim, Ken Kurosaki, Seongho Choi, Yuji Ohishi, Hiroaki Muta, Shinsuke Yamanaka, Misato Takahashi and Junya Tanaka, "Thermoelectric Properties of In_xFeCo₃Sb₁₂ Consisting Mainly of In-Filled p-Type Skutterudites", Materials Transactions, Vol.58, No.08, 1207(2017).

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  [先頭]
• Nzar Rauf Abdullah, Chi-Shung Tang, Andrei Manolescu, Vidar Gudmundsson, "Spin-dependent heat and thermoelectric currents in a Rashba ring coupled to a photon cavity", arXiv:1707.08416.
• Bitan De, Bhaskaran Muralidharan, "Thermoelectric cooling and thermal switching via the non-linear phonon Peltier effect", arXiv:1707.08248.
• Kaoru Yamamoto, Amnon Aharony, Ora Entin-Wohlman, Naomichi Hatano, "Thermoelectricity near Anderson localization transitions", arXiv:1707.08286.

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• Sigurdur I. Erlingsson, Andrei Manolescu, George Alexandru Nemnes, Jens H. Bardarson, and David Sanchez, "Reversal of Thermoelectric Current in Tubular Nanowires", Phys. Rev. Lett. 119, 036804 (2017).
• Jinghua Liang, Huijun Liu, Dengdong Fan, Peiheng Jiang, "Large scale calculations of thermoelectric transport coefficients: a case study of γ-graphyne with point defects", arXiv:1707.07245.
• R. Ma, S. W. Liu, L. Sheng, D. Y. Xing, "Magnetothermoelectric transport properties in phosphorene", arXiv:1707.07404.
• Arjun Mani, Colin Benjamin, "Designing a quantum spin heat engine and refrigerator in strained graphene with giant theromoelectric figure of merit", arXiv:1707.07159.

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• Tokiyoshi Matsuda, Mutsunori Uenuma and Mutsumi Kimura, "Thermoelectric effects of amorphous Ga-Sn-O thin film", Jpn. J. Appl. Phys. 56[7], 070309(2017).
• Simon Thebaud, Christophe Adessi, Stephane Pailhes, Georges Bouzerar, "Boosting the power factor with resonant states: a model study", arXiv:1707.05611.

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• S. Verret, O. Simard, M. Charlebois, D. Senechal, A.-M. S. Tremblay, "Phenomenological theories of the low-temperature pseudogap: Hall number, specific heat and Seebeck coefficient", arXiv:1707.04632.
• Chen Jikun, Wang Jiaou, Xiao Jie, Ke Xinyou, Yajima Takeaki, Hao Feng, Chen Hongyi, Zhang Qihao, Jiang Yong, Chen Nuofu, Chen Lidong, "Remarkable thermoelectric power factors achieved by regulating strain-induced polarizations of SrNb_xTi_1-xO₃", arXiv:1707.04988.
• Pavlo Zolotavin, Charlotte I. Evans, Douglas Natelson, "Substantial local variation of Seebeck coefficient in gold nanowires", arXiv:1707.04510.

  ---

• Kaike Yang, Ji-Chang Ren, Hongfei Qiu, Jian-Sheng Wang, "Phonon-Driven Electron Scattering and Magnetothermoelectric Effect in Two-Dimensional Tin Selenide", arXiv:1707.02737.
• Alexandr Alekhin, Ilya Razdolski, Nikita Ilin, Jan P. Meyburg, Detlef Diesing, Vladimir Roddatis, Ivan Rungger, Maria Stamenova, Stefano Sanvito, Uwe Bovensiepen, and Alexey Melnikov, "Femtosecond Spin Current Pulses Generated by the Nonthermal Spin-Dependent Seebeck Effect and Interacting with Ferromagnets in Spin Valves", Phys. Rev. Lett. 119, 017202 (2017).

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• Alexander Boehnke, Ulrike Martens, Christian Sterwerf, Alessia Niesen, Torsten Huebner, Marvin von der Ehe, Markus Meinert, Timo Kuschel, Andy Thomas, Christian Heiliger, Markus Münzenberg, Günter Reiss, "Heusler compounds for spin caloritronics: Large magneto-Seebeck effects in magnetic tunnel junctions", arXiv:1707.00505.
• Benedetta Flebus, Gerrit E. W. Bauer, Rembert A. Duine, Yaroslav Tserkovnyak, "Theory of magnon-mediated tunnel magneto-Seebeck effect", arXiv:1707.00674.

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• Tomosato Hioki, Ryo Iguchi, Zhiyong Qiu, Dazhi Hou, Ken-ichi Uchida and Eiji Saitoh, "Time-resolved study of field-induced suppression of longitudinal spin Seebeck effect", Applied Physics Express, Volume 10, Number 7, 073002(2017).

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• Isao Ohkubo and Takao Mori, "Comparative Study of Exchange-Correlation Functional and Potential for Evaluating Thermoelectric Transport Properties in d0 Perovskite Oxides", J. Phys. Soc. Jpn. 86, 074705(2017).
• Qingxiu Yu, Yuan Xu Wang, and Hehong Shao, "Antibonding Holes Induce Good Thermoelectric Properties of p-type Ca₅Ga₂As₆", J. Phys. Soc. Jpn. 86, 074707(2017).

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• Masayuki Ochi, Hidetomo Usui, Kazuhiko Kuroki, "Expectation of excellent thermoelectric performance in pnictogen-dichalcogenide layered compounds due to quasi-one-dimensional gapped-Dirac-like band dispersion", arXiv:1706.09271.
• Arati Prakash, Benedetta Flebus, Jack Brangham, Fengyuan Yang, Yaroslav Tserkovnyak, Joseph P. Heremans, "Evidence for the role of the magnon energy relaxation length in the Spin Seebeck Effect", arXiv:1706.09021.
• Y. Ohnuma, M. Matsuo, S. Maekawa, "Theory of spin Peltier effect", arXiv:1706.09332.
• Qichen Song, Te-Huan Liu, Jiawei Zhou, Zhiwei Ding, Gang Chen, "Ab-initio study of electron mean free paths and thermoelectric properties of lead telluride", arXiv:1706.09287.

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• Dmitry V. Fedorov, Martin Gradhand, Katarina Tauber, Gerrit E. W. Bauer, Ingrid Mertig, "Seebeck Effect in Nanoscale Ferromagnets", arXiv:1706.08753.

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• Torsten Huebner, Ulrike Martens, Jakob Walowski, Alexander Boehnke, Jan Krieft, Christian Heiliger, Andy Thomas, Günter Reiss, Timo Kuschel, Markus Münzenberg, "Enhancement of thermovoltage and tunnel magneto-Seebeck effect in CoFeB based magnetic tunnel junctions by variation of the MgAl₂O₄ and MgO barrier thickness", arXiv:1706.08287.
• Peter Samuelsson, Sara Kheradsoud, and Björn Sothmann, "Optimal Quantum Interference Thermoelectric Heat Engine with Edge States", Phys. Rev. Lett. 118, 256801(2017).

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• Brian Skinner, Liang Fu, "Large, nonsaturating thermopower in a quantizing magnetic field", arXiv:1706.06117.

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• S. R. Popuri, M. Pollet, R. Decourt, M. L. Viciu, J. W. G. Bos, "Evidence for hard and soft substructures in thermoelectric SnSe", arXiv:1706.06004.

  ---

• Evan Witkoske, Xufeng Wang, Vahid Askarpour, Jesse Maassen, Mark Lundstrom, "Thermoelectric Band Engineering: The Role of Carrier Scattering", arXiv:1706.05241.

  ---

• Y. Shiomi, R. Takashima, E. Saitoh, "Signature of magnon Nernst effect in an antiferromagnetic insulator", arXiv:1706.03978.

  ---

• Veljko Zlatic, J. K. Freericks, "Thermoelectric transport parallel to the planes in a multilayered Mott-Hubbard heterostructure", arXiv:1706.03022.

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  [先頭]
• I. I. Lyapilin, M. S. Okorokov, "Spin Seebeck effect and magnon-magnon drag in Pt/YIG/Pt structures", arXiv:1706.02154.

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• Swarnadip Mukherjee, Pankaj Priyadarshi, Bhaskaran Muralidharan, "Superior thermoelectric performance via "anti-reflection" enabled double-barrier structures", arXiv:1706.01669.

  ---

• Parijat Sengupta, "Low-temperature thermal transport and thermopower of monolayer transition metal dichalcogenide semiconductors", arXiv:1706.00494.
• Nicklas Walldorf, Antti-Pekka Jauho, Kristen Kaasbjerg, "Thermoelectrics in Coulomb-coupled quantum dots: Cotunneling and energy-dependent lead couplings", arXiv:1706.00461.

  ---

• Taisei Ariki, Tatsuya Nomura, Kohei Ohnishi and Takashi Kimura, "Effective suppression of thermoelectric voltage in nonlocal spin-valve measurement", Appl. Phys. Express 10, 063004(2017).
• J. P. Ramos-Andrade, F. J. Pena, A. Gonzalez, O. Avalos-Ovando, P. A. Orellana, "Spin-Seebeck effect and spin polarization in a multiple quantum dot molecule", arXiv:1706.00104.

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• Gaomin Tang, Xiaobin Chen, Jie Ren, Jian Wang, "Rectifying full-counting statistics in a spin Seebeck engine", arXiv:1705.10025.
• Kazuki Kawata and Takahide Oya, "Development and evaluation of "thermoelectric power-generating paper" using carbon nanotube-composite paper", Jpn. J. Appl. Phys. 56[6S1], 06GE10(2017).

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• Nguyen T. Hung, Ahmad R. T. Nugraha, R. Saito, "Two-dimensional InSe as a potential thermoelectric material", arXiv:1705.06688.

  ---

• Long Chen, Yamei Liu, Jian He, Terry M. Tritt, S. Joseph Poon, "High Thermoelectric Figure of Merit by Resonant Dopant in Half-Heusler Alloys", arXiv:1705.06100.

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• Richa Pandey, Gaurav Vats, Jae Yun, Chris R Bowen, Anita W. Y. Ho-Baillie, Jan Seidel, "Perovskites for Solar and Thermal Energy Harvesting: State of the Art Technologies, Current Scenario and Future Directions", arXiv:1705.05529.

  ---

• Madhumita Saha, Debashree Chowdhury, "Thermoelectric transport of a Floquet topological insulator with Spin momentum non-orthogonality", arXiv:1705.04948.

  ---

• Wataru Saito, Kei Hayashi, Hiroki Nagai and Yuzuru Miyazaki, "Preparation and thermoelectric properties of mixed valence compound Sn₂S₃", Jpn. J. Appl. Phys. 56[6], 061201(2017).
• Koichi Nakamura, "First-principles simulation on Seebeck coefficient in silicon nanowires", Jpn. J. Appl. Phys. 56[6S1], 06GH04(2017).
• Momoko Takahashi, Toshiaki Deguchi and Masayuki Takashiri, "Effect of ultraviolet irradiation on poly(3,4-ethylenedioxythiophene) doped with ClO₄ thin films using electropolymerization", Jpn. J. Appl. Phys. 56[6S1], 06GJ03(2017).
• Toshinori Daimon and Hironori Tohmyoh, "A multi-layered thermoelectric power generator fabricated by stacking thermoelectric plates", Jpn. J. Appl. Phys. 56[6S1], 06GN05(2017).
• Yoshitaka Ito, Mizue Mizoshiri, Masashi Mikami, Tasuku Kondo, Junpei Sakurai and Seiichi Hata, "Fabrication of thin-film thermoelectric generators with ball lenses for conversion of near-infrared solar light", Jpn. J. Appl. Phys. 56[6S1], 06GN06(2017).
• Antia S. Botana, Victor Pardo, Warren E. Pickett, "All 3d electron-hole bilayers in CrN/MgO(111) multilayers", arXiv:1705.04534.

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• Kulwinder Kaur, D. P. Rai, R. K. Thapa, Sunita Srivastava, "Pursuit of thermoelectric properties in a novel Half Heusler compound: HfPtPb", arXiv:1705.04015.

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• Z. Li, E. Z. Xu, Y. Losovyj, N. Li, B. Swartzentruber, N. Sinitsyn, J. K. Yoo, Q. X. Jia, S. X. Zhang, "Surface oxidation and thermoelectric properties of indium-doped tin telluride nanowires", arXiv:1705.03874.

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• K. Morrison, A.J Caruana, C. Cox, "Towards a standard spin Seebeck measurement", arXiv:1705.02491.
• Alestin Mawrie, Sonu Verma, Tarun Kanti Ghosh, "Electrical and thermoelectric transport properties of two-dimensional fermionic systems with -cubic spin-orbit coupling", arXiv:1705.02483.

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• Shunsuke Daimon, Ken-ichi Uchida, Ryo Iguchi, Tomosato Hioki, Eiji Saitoh, "Thermographic measurements of the spin Peltier effect in metal/yttrium-iron-garnet junction systems", arXiv:1705.02094.
• Florian Rittweger, Nicki Frank Hinsche, Ingrid Mertig, "Phonon limited thermoelectric transport in Pb", arXiv:1705.01976.
• Piotr Trocha, Jozef Barnas, "Spin-dependent thermoelectric phenomena in a quantum dot attached to ferromagnetic and superconducting electrodes", arXiv:1705.01007.

  ---

• Journal of Electronic Materials, Vol. 46, Issue 5 (2017), ICT2016 Proceedings.
• Takumi Inohara, Yoshihiko Okamoto, Youichi Yamakawa, Ai Yamakage, Koshi Takenaka, "Large Thermoelectric Power Factor at Low Temperatures in One-Dimensional Telluride Ta₄SiTe₄", arXiv:1705.00404.

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• Niloufar Yavarishad, Tahereh Hosseini, Elaheh Kheirandish, Chris P. Weber and Nikolai Kouklin, "Room-temperature self-powered energy photodetector based on optically induced Seebeck effect in Cd₃As₂", Appl. Phys. Express 10, 052201(2017).

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• Ibrahim M Abdel-Motaleb, Syed M. Qadri, "Thermoelectric Devices: Principles and Future Trends", arXiv:1704.07742.
• P. Yordanov, P. Wochner, S. Ibrahimkutty, C. Dietl, F. Wrobel, R. Felici, G. Gregori, J. Maier, B. Keimer, H.-U. Habermeier, "Perovskite Substrates Boost the Thermopower of Cobaltate Thin Films at High Temperatures", arXiv:1704.07660.

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• S. Kolenda, C. Sürgers, G. Fischer, D. Beckmann, "Thermoelectric effects in superconductor-ferromagnet tunnel junctions on europium sulfide", arXiv:1704.07241.
• Qing Xi, Jun Zhou, Tsuneyoshi Nakayama, Baowen Li, "Corn-on-Hotpan Processes Explain T-linear Rise of Thermal Conductivity in Thermoelectric Clathrates above the Plateau", arXiv:1704.07024.

  ---

  [先頭]
• Natalya A. Zimbovskaya, "Communication: Length-dependent thermopower of single-molecule junctions", J. Chem. Phys. 145, 221101(2016).

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• Amin Nozariasbmarz, Aditi Agarwal, Zachary A. Coutant, Michael J. Hall, Jie Liu, Runze Liu, Abhishek Malhotra, Payam Norouzzadeh, Mehmet C. Öztürk, Viswanath P. Ramesh, Yasaman Sargolzaeiaval, Francisco Suarez and Daryoosh Vashaee, "Thermoelectric silicides: A review", Jpn. J. Appl. Phys. 56[5S1], 05DA04(2017).
• Shiva Kumar Singh, Yukihiro Isoda and Motoharu Imai, "Synthesis and thermoelectric properties of quaternary Si clathrate K_8-δGa_xZn_ySi_46-x-y", Jpn. J. Appl. Phys. 56[5S1], 05DC01(2017).
• Mao Kurokawa, Mutsuo Uehara, Daichi Ichinose, Takao Shimizu, Kensuke Akiyama, Masaaki Matsushima, Hiroshi Uchida, Yoshisato Kimura and Hiroshi Funakubo, "Preparation of preferentially (111)-oriented Mg₂Si thin films on (001)Al₂O₃ and (100)CaF₂ substrates and their thermoelectric properties", Jpn. J. Appl. Phys. 56[5S1], 05DC02(2017).
• Kentaro Watanabe, Tatsuhiko Taniguchi, Shunya Sakane, Shunsuke Aoki, Takeyuki Suzuki, Takeshi Fujita and Yoshiaki Nakamura, "Thermoelectric properties of epitaxial β-FeSi₂ thin films grown on Si(111) substrates with various film qualities", Jpn. J. Appl. Phys. 56[5S1], 05DC04(2017).
• A.-M. Dare, P. Lombardo, "Powerful Coulomb drag thermoelectric engine", arXiv:1704.04064.

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• O. Cyr-Choiniere, S. Badoux, G. Grissonnanche, B. Michon, S. A. A. Afshar, S. Fortier, D. LeBoeuf, D. Graf, J. Day, D. A. Bonn, W. N. Hardy, R. Liang, N. Doiron-Leyraud, Louis Taillefer, "Anisotropy of the Seebeck Coefficient in the Cuprate Superconductor YBa2Cu3Oy: Fermi-Surface Reconstruction by Bidirectional Charge Order", arXiv:1704.03829.
• Yuqiao Zhang, Bin Feng, Hiroyuki Hayashi, Tetsuya Tohei, Isao Tanaka, Yuichi Ikuhara, Hiromichi Ohta, "Thermoelectric phase diagram of the SrTiO₃-SrNbO₃ solid solution system", arXiv:1704.03613.
• Anup V. Sanchela, Takaki Onozato, Bin Feng, Yuichi Ikuhara, Hiromichi Ohta, "Thermopower modulation clarification of the intrinsic effective mass in a transparent oxide semiconductor, BaSnO₃", arXiv:1704.03653.

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• Munish Sharma, Ashok Kumar, P.K.Ahluwalia, "Electron Transport and Thermoelectric Performance of Defected Monolayer MoS₂", arXiv:1704.03178.

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• D. J. Voneshen, H. C. Walker, K. Refson, and J. P. Goff, "Hopping Time Scales and the Phonon-Liquid Electron-Crystal Picture in Thermoelectric Copper Selenide", Phys. Rev. Lett. 118, 145901(2017).
• Irakli Titvinidze, Antonius Dorda, Wolfgang von der Linden, Enrico Arrigoni, "Thermoelectric properties of a strongly correlated layer", arXiv:1704.02934.
• Andrey V. Timofeev, Aapo Varpula, Andrey Shchepetov, Kestutis Grigoras, Juha Hassel, Jouni Ahopelto, Markku Ylilammi, Mika Prunnila, "Thermoelectric bolometers based on ultra-thin heavily doped single-crystal silicon membranes", arXiv:1704.02511.

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• U. Stockert, R. D. dos Reis, M. O. Ajeesh, M. Schmidt, C. Shekhar, C. Felser, M. Nicklas, M. Baenitz, "Thermopower and thermal conductivity in the Weyl semimetal NbP", arXiv:1704.02241.

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• Byungki Ryu, Jaywan Chung, Eun-Ae Choi, Bong-Seo Kim, Su-Dong Park, "Thermoelectric power factor of Bi-Sb-Te and Bi-Te-Se alloys and doping strategy: First-principles study", arXiv:1704.01723.
• Hitoshi Mori, Hidetomo Usui, Masayuki Ochi, Kazuhiko Kuroki, "Temperature- and doping-dependent roles of valleys in thermoelectric performance of SnSe: a first-principles study", arXiv:1704.00968.
• Voicu Popescu, Peter Kratzer, Sebastian Wimmer, Hubert Ebert, "Native defects in the Co₂TiZ (Z= Si, Ge, Sn) full Heusler alloys: formation and influence on the thermoelectric properties", arXiv:1704.00149.
• Stephane Yu Matsushita, Khuong Kim Huynh, Harukazu Yoshino, Ngoc Han Tu, Yoichi Tanabe, Katsumi Tanigaki, "Thermoelectric properties of 3D topological insulator: Direct observation of topological surface and its gap opened states", arXiv:1703.10736.
• J. Hirschner, K. Knizek, M. Marysko, J. Hejtmanek, R. Uhrecky, M. Soroka, J. Bursik, A. Anadon Barcelona, M. H. Aguirre, "Spin Seebeck effect in Y-type hexagonal ferrite thin films", arXiv:1703.10903.
• Jan Christopher Klöckner, Robert Siebler, Juan Carlos Cuevas, Fabian Pauly, "Thermal conductance and thermoelectric figure of merit of C₆₀-based single-molecule junctions: electrons, phonons, and photons", arXiv:1704.00591.
• 【熱電関連論文献・重要論文情報】[先頭]
• [PGEC]G. A. Slack, CRC Handbook of Thermoelectric (CRC Press, Boca Raton, FL, 1995), Ed. D. M. Rowe (Ch. 34).
• Thermoelectric Nanomaterials: Materials Design and Applications, ed. K. Koumoto and T. Mori (Springer, Heidelberg, 2013) Springer Series in Materials Science, Vol. 182.
• Ioannis Petsagkourakis, Klas Tybrandt, Xavier Crispin, Isao Ohkubo, Norifusa Satoh, and Takao Mori, "Thermoelectric materials and applications for energy harvesting power generation", Science and Technology of Advanced Materials, Volume 19, 2018 - Issue 1, Pages 836-862.
• Robert Freer, Dursun Ekren, Tanmoy Ghosh, Kanishka Biswas, Pengfei Qiu, Shun Wan, Lidong Chen, Shen Han, Chenguang Fu, Tiejun Zhu, A K M Ashiquzzaman Shawon, Alexandra Zevalkink, Kazuki Imasato, G. Jeffrey Snyder, Melis Ozen, Kivanc Saglik, Umut Aydemir, Ral Cardoso-Gil, E Svanidze, Ryoji Funahashi, Anthony V Powell, Shriparna Mukherjee, Sahil Tippireddy, Paz Vaqueiro, Franck Gascoin, Theodora Kyratsi, Philipp Sauerschnig and Takao Mori, "Key properties of inorganic thermoelectric materials―tables (version 1)", J. Phys. Energy 4, 022002 (2022).
• 書籍：「次世代熱電変換材料・モジュールの開発 -熱電発電の黎明-」、編纂:日本熱電学会、編集:小菅厚子、舟橋良次、塩見淳一郎、野々口斐之、シーエムシー出版（２０２０年３月刊行）
• 「熱電応答理論の最近の発展とその応用」、山本貴博、小形正男、福山秀敏、日本物理学会誌、第７６巻、第４号、２０２頁（２０２１）
• 「フレキシブル熱電デバイスの現状と展望」、伊東裕、田中久暁、竹延大志、応用物理、第９０巻、第７号、４０２頁（２０２１）
• 「ファンデルワールス界面を有する薄膜系の熱電特性」、柳和宏、応用物理、第９２巻、第２号、７９頁（２０２３）
• 「計算科学を活用した熱電変換材料の研究開発動向」、監修：森孝雄／塩見淳一郎、(株)シーエムシー・リサーチ
• 「オンサイトエネルギー - エネルギーハーベスティングの要素技術と新展開 - 」、 監修：桑野博喜、シーエムシー出版