(Start, 10/16, 2005)(Update, 12/2, 2024)
Information about B-, C- and BC-compounds
- [MgB2]
- J. Nagamatsu, N. Nakagawa, T. Muranaka, Y. Zenitani and J. Akimitsu: Nature 410 (2001) 63.
- Related to MgB2 papers (in theory):[page]
- Related: W. E. Pickett, "The Next Breakthrough in Phonon-Mediated Superconductivity", cond-mat/0603428.
- P. Zhang, S. Saito, S. G. Louie, M. L. Cohe, cond-mat/0702625[Hole doping][Without chemical substitution].
- C. P. Moca, E. Demler, B. Janko, G. Zarand, arXiv:0805.0700[Spin-resolved spectra of Shiba multiplets][Mn impurities].
- E. W. Collings, M. D. Sumption, M. Bhatia, M. A. Susner, S. D. Bohnenstiehl, arXiv:0805.1388[Prospects for improving the intrinsic and extrinsic properties][Superconducting strand].
- MgB2 substituted with Li and with Li-C
- J. Karpinski, N. Zhigadlo, S. Katrych, B. Batlogg, M. Tortello, K. Rogacki, R. Puzniak, arXiv:0704.3526[Structural][Superconducting]
- [B]
- S. K. Bose, T. Kato and O. Jepsen, Phys. Rev. B72, 184509(2005)[FP-LMTO][Boron under pressure][Surperconductivity].
- [XBC(X = Mg, Ca, Sr, Ba)]
- E. Haque, M. A. Hossain, arXiv:1808.06700[First-principles prediction][Phonon-mediated superconductivity].
- [LiBC]
- M. Wörle, R. Nesper, G. Mair, M. Schwarz and H. G. von Schnering: Z. Anorg. Allg. Chem. 621 (1995) 1153.
- H. Rosner, A. Kitaigorodsky, W. E. Pickett, Phys. Rev. Lett. 88 (2002) 127001.
- Theoretical papers of LiBC:[page]
- [LiB1+xC1-x]
- Q. Li, X. Yan, M. Gao, J. Wang, arXiv:1801.07119[Electron-phonon coupling][Superconductivity].
- [LinBn+xCn-x]
- Y. Gu, J. Hu, H. Jiang, T. Xiang, arXiv:2411.09925[Optimal coloring][Strain-enhanced superconductivity]
- [Lithium monoboride]
- A. N. Kolmogorov and S. Curtarolo, Phys. Rev. B73, 180501(R)(2006)[VASP-PAW][WIEN2k][Prediction][New crystal structure phase].
- [LiBSi]
- O. P. Isikaku-Ironkwe, arXiv:1205.2407[Prospect][Superconductivity].
- [Metal borides]
- A. N. Kolmogorov and S. Curtarolo, Phys. Rev. B74, 224507(2006)[VASP-PAW][Stability].
- [Various borides]
- M. Mudgel, V. P. S. Awana, H. Kishan, I. Felner, Dr. G. A. Alvarez, G. L. Bhalla, arXiv:0811.4224[Superconductivity][The role of stretched c-parameter].
- [Boride superconductors]
- S. Chen, Z. Wu, Z. Zhang, S. Wu, K.-M. Ho, V. Antropov, Y. Sun, arXiv:2401.13211[High-throughput screening].
- [CrB2]
- C. Pei, et al., arXiv:2109.15213[Pressure-induced superconductivity][Itinerant antiferromagnet].
- S. Biswas, A. Kreisel, A. Valadkhani, M. Dürrnagel, T. Schwemmer, R. Thomale, R. Valenti, I. I. Mazin, arXiv:2211.01054[Hybrid s-wave superconductivity]
- [NbB2]
- S. Kuroiwa, Y. Tomita, A. Sugimoto, T. Ekino and J. Akimitsu, Journal of the Physical Society of Japan, Vol. 76, No. 9, 094705(2007)[Specific heat][Tunneling spectroscopy].
- M. Mudgel, V. P. S. Awana, G. L. Bhalla, H. Kishan, arXiv:0807.1198[Superconductivity][Non-stoichiometric intermetallic compound].
- [NbB2+x]
- R. Khasanov, A. Shengelaya, A. Maisuradze, D. Di Castro, R. Escamilla, H. Keller, arXiv:0712.2067[Correlation between the transition temperature and the superfluid density][BCS superconductor].
- [NbIr2B2]
- D. Das, K. Gornicka, Z. Guguchia, J. Jaroszynski, R. J. Cava, W. Xie, H. Luetkens, T. Klimczuk, arXiv:2209.03187[Time reversal invariant single gap superconductivity][Upper critical field][Larger than][Pauli limit].
- [TcB, TcB2, Tc2B, Tc3B]
- X. Tao, A. Yang, Y. Quan, B. Wan, S. Yang, P. Zhang, arXiv:2403.15283[Discovery of superconductivity][Technetium-borides][Moderate pressures]
- [MoB2]
- Yundi Quan, Kwan-woo Lee, Warren E. Pickett, arXiv:2109.01724[Under pressure][Superconducting][Enhanced by boron].
- A. C. Hire, S. Sinha, J. Lim, J. S. Kim, P. M. Dee, L. Fanfarillo, J. J. Hamlin, R. G. Hennig, P. J. Hirschfeld, G. R. Stewart, Phys. Rev. B 106, 174515(2022)[arXiv:2212.14869][High critical field superconductivity][Ambient pressure][Stabilized][P6/mmm structure][Nb substitution].
- J. Lim, S. Sinha, A. C. Hire, J. S. Kim, P. M. Dee, R. S. Kumar, D. Popov, R. J. Hemley, R. G. Hennig, P. J. Hirschfeld, G. R. Stewart, J. J. Hamlin, arXiv:2302.13936[Suppression of superconductivity][Nb-substituted MoB2][High pressure].
- [MoB2+x]
- Cuiying Pei, Jianfeng Zhang, Qi Wang, Yi Zhao, Lingling Gao, Chunsheng Gong, Shangjie Tian, Ruitao Luo, Zhong-Yi Lu, Hechang Lei, Kai Liu, Yanpeng Qi, arXiv:2105.13250[Pressure-induced superconductivity][32 K].
- [Re0.10Mo0.90B2]
- S. Sinha, J. Lim, Z. Li, J. S. Kim, A. C. Hire, P. M. Dee, R. S. Kumar, D. Popov, R. J. Hemley, R. G. Hennig, P. J. Hirschfeld, G. R. Stewart, J. J. Hamlin, arXiv:2408.17416[Superconductivity][Pressurized].
- [(Mo0.96Ti0.04)0.8B2]
- Wuzhang Yang, Guorui Xiao, Qinqing Zhu, Shijie Song, Guang-Han Cao, Zhi Ren, arXiv:2302.14272[Effect of carbon doping][Structure][Superconductivity][AlB2-type].
- [NbRuB]
- F. Parvin, S.H. Naqib, arXiv:1703.06707[Elastic][Thermodynamic][Optical][Superconductor][Ab-initio investigation].
- [AgB2
- R. Tomita, H. Koga, T. Uchiyama and I. Iguchi, J. Phys. Soc. Jpn. 73 (2004) 2639.
- S. K. Kwon, S. J. Youn, K. S. Kim and B. I. Min, cond-mat/0106483.
- I. R. Shein, N. I. Medvedeva and A. L. Ivanovskii, cond-mat/0412426.
- [OsB2]
- Y. Singh, A. Niazi, M. W. Vannette, R. Prozorov, D. C. Johnston, Phys. Rev. B76, 214510(2007)[Superconducting and normal state properties][Layered boride].
- Y. Singh, C. Martin, S. L. Bud'ko, A. Ellern, R. Prozorov, D. C. johnston, arXiv:1006.5651[Multi-gap superconductivity][Shubnikov-de Haas oscillation][Single crystal][Layered].
- J. Bekaert, S. Vercauteren, A. Aperis, L. Komendova, R. Prozorov, B. Partoens, M. Milosevic, arXiv:1610.00929[Anisotropic type-I superconductivity][Anomalous superfluid density]
- [RuB2]
- J. Singh, A. Jayaraj, D. Srivastava, S. Gayen, A. Thamizhavel, Y. Singh, arXiv:1709.06954[Possible multigap Type-I superconductivity][Layered Boride]
- S. Datta, A. Vasdev, S. Halder, J. Singh, Y. Singh, G. Sheet, arXiv:1907.08807[Spectroscopic signature][Two superconducting gaps][Unusual field dependence]
- [WB2]
- J. Lim, A. C. Hire, Y. Quan, J. S. Kim, S. R. Xie, R. S. Kumar, D. Popov, C. Park, R.J. Hemley, J. J. Hamlin, R. G. Hennig, P. J. Hirschfeld, G. R. Stewart, arXiv:2109.11521[Creating superconductivity][Pressure-induced metastable planar defect].
- [WB2, ReB2]
- C. Pei, et al., arXiv:2111.11909[Pressure induced superconductivity][Modifying the B layers]
- [OsB2, RuB2]
- B. J. Suh, X. Zong, Y. Singh, A. Niazi and D. C. Johnston, Phys. Rev. B76, 144511(2007)[NMR][Layered]
- [Nb1-xB2 (at the critical point x = 0.2)]
- R. J. Xiao, K. Q. Li, H. X. Yang, G. C. Che, H. R. Zhang, C. Ma, Z. X. Zhao and J. Q. Li, Phys. Rev. B73, 224516(2006)[Experiment][Theory][WIEN2k][SPR-KKR-CPA][Superconductivity][Structural instability][Band filling].
- [M1-xB2 (M = Mg, Al, Zr and Nb)]
- I. R. Shein, A. L. Ivanovskii, arXiv:0804.0894[Atomic models of non-stoichiometric layered diborides].
- [AlB2]
- D. Takane, S. Souma, K. Nakayama, T. Nakamura, H. Oinuma, K. Hori, K. Horiba, H. Kumigashira, N. Kimura, T. Takahashi, T. Sato, arXiv:1807.01426[Observation][Dirac nodal line].
- [MgB2, AlB2, AgB2
- R. Lal, V. P. S. Awana, K. P. Singh, H. Kishan and A. V. Narlikar, cond-mat/0509674[Experiment].
- [Zinc-blende BC, MgB2, LiBC, etc.]
- J. E. Moussa, M. L. Cohen, cond-mat/0607832[Two bounds][Maximum Phonon-mediated superconducting transition temperature].
- [MgB2, MgB1.9C0.1]
- J. A. Alarco, M. Shahbazi, I. D. R. Mackinnon, arXiv:2204.00151[Experimental control][Tc][AlB2-type compound][Applied voltage]
- [KB2H8]
- Md. A. Alam, F. Parvin, S. H. Naqib, arXiv:2311.06709[First-principles pressure dependent investigation][Physical properties][Prospective high-Tc superconductor].
- [Antifluorite Be2BxC1-x]
- J. E. Moussa, J. Noffsinger and M. L. Cohen, Phys. Rev. B78, 104506(2008)[Possible thermodynamic stability][Superconductivity]
- [Boron-Carbon system]
- S. Saha, et al., arXiv:2004.03443[High-temperature conventional superconductivity][Material trend].
- [BC3]
- D. Tomanek, R. M. Wentzcovitch, S. G. Louie, M. L. Cohen, Phys. Rev. B37 (1988) 3134.
- H. Sun, et al., Phys. Rev. B69 (2004) 024110.
- F. J. Ribeiro, M. L. Cohen, Phys. Rev. B69 (2004) 212507.
- H. Yanagisawa, et al., Phys. Rev. Lett. 93 (2004) 177003.
- H. Yanagisawa, et al., Phys. Rev. B73 (2006) 045412[Experiment][Theory][DACAPO][Phonon dispersion][Stable and metastable][Honeycomb epitaxial shhet][Chemical bonding].
- H. Tanak, et al., Solid State Communications 136, 22(2005)[Experiment][Surface][Honeycomb sheet].
- M. M. Ali, A. K. M. A. Islam, F. Parvin, M. Aftabuzzaman, arXiv:0910.5083[Superconductivity][Diamond-like].
- Y. Wang, J. Liu, W. Wang, Q. Wang, arXiv:1711.04963[Electronic orders][Near the type-II van Hove singularity].
- [BC5]
- M. Calandra, F. Mauri, arXiv:0805.3894[High Tc superconductivity][Superhard diamond-like].
- [Superhard B-C-N metals]
- A. D. Smith, Y. K. Vohra, C.-C. Chen, arXiv:2410.02104[First-principles calculation][Superconducting Tc]
- [Y2C3]
- G. Amano, et al., J. Phys. Soc. Jpn. 73 (2004) 530.
- I. R. Shein and A. L. Ivanovskii, cond-mat/0312391.
- D. J. Singh and I. I. Mazin, Phys. Rev. B70 (2004) 052504.
- A. Harada, S. Akutagawa, Y. Miyamichi, H. Mukuda, Y. Kitaoka, J. Akimitsu, Journal of the Physical Society of Japan, Vol. 76, No. 2, 023704(2007)[Multigap superconductivity][13C-NMR study]
- S. Akutagawa and J. Akimitsu, Journal of the Physical Society of Japan, Vol. 76, No. 2, 024713(2007)[Superconductivity][Specific heat measurement][Susceptibility]
- S. Akutagawa, T. Ohashi, H. Kitano, A. Maeda and J. Akimitsu, Journal of the Physical Society of Japan, Vol. 77, No. 1, 014702(2008)[Electrical resistivity][Microwave surface impedance measurement][Superconductivity]
- C. Yu, et. al., Solid State Communications 142, 536(2007)[CASTEP][Pressure-induced change][Structural][Superconductor]
- Y. Nishikayama, T. Shishidou and T. Oguchi, Journal of the Physical Society of Japan, Vol. 76, No. 6, 064714(2007)[FLAPW][Fermi surface][Fermi velocity][Superconductivity]
- H. Q. Yuan, J. Chen, J. Singleton, S. Akutagawa, J. Akimitsu, arXiv:1101.3145[Large upper critical field][Non-centrosymmetric superconductor].
- J. Chen, M. B. Salamon, S. Akutagawa, J. Akimitsu, J. Singleton, H. Q. Yuan, arXiv:1102.0622[Evidence of nodal gap structure][Non-centrosymmetric][Superconductor].
- C. Chen, B. Jin, arXiv:1608.01190[Nuclear spin-lattice relaxation rate][Noncentrosymmetric superconductor].
- [B6C]
- K. Xia, M. Ma, C. Liu, H. Gao, Q. Chen, J. He, J. Sun, H. Wang, Y. Tian, D. Xing, arXiv:1712.10154[Superhard][Superconducting].
- C-B clathrates
- N. Geng, K. P. Hilleke, L. Zhu, X. Wang, T. A. Strobel, E. Zurek, arXiv:2210.05042[Beyond MgB2][High-temperature superconductivity][Metallic covalently bonded].
- [YB6]
- R. Lortz, et al., cond-mat/0510572[Soft phonon mode][Specific heat][Resistivity][Thermal expansion][Magnetization].
- R. Khasanov, P. S. Häfliger, N. Shitsevalova, A. Dukhnenko, H. Keller, cond-mat/0605391[Pressure induced softening][GL parameter]
- R. Kadono, S. Kuroiwa, J. Akimitsu, A. Koda, K. Ohishi, W. Higemoto, S. Otani, arXiv:0705.3309[Microscopic properties of vortex state][Muon spin rotation].
- M. I. Tsindlekht, V. M. Genkin, G. I. Leviev, N. Yu. Shitsevalova, arXiv:0901.2544[Surface superconducting states][Single crystal][Tilted magnetic field].
- N. Sluchanko, V. Glushkov, S. Demishev, A. Azarevich, M. Anisimov, A. Bogach, S. Gavrilkin, K. Mitsen, A. Kuznetsov, I. Sannikov, N. Shitsevalova, V. Filippov, M. Kondrin, K. Flachbart, arXiv:1608.08902[Lattice instability][Enhancement of superconductivity].
- [CoFeB]
- M. G. Loving, T. F. Ambrose, S. Keebaugh, D. L. Miller, R. Pownall, N. D. Rizzo, A. N. Sidorov, N. P. Siwak, arXiv:2104.03188[Magnetic reversal][Critical current transparency][Superconductor-ferromagnet-superconductor heterostructure]
- [FeB4]
- J. Bekaert, A. Aperis, B. Partoens, P. M. Oppeneer, M. V. Milosevic, arXiv:1801.04421[Advanced first-principles theory][Superconductivity][Lattice vibration][Spin fluctuation].
- [beta-YbAlB4]
- K. Kuga, Y. Karaki, Y. Matsumoto, Y. Machida and S. Nakatsuji, Phys. Rev. Lett. 101, 137004(2008)[Superconducting][Non-Fermi-liquid].
- E. C. T. O'Farrell, D. A. Tompsett, S. E. Sebastian, N. Harrison, C. Capan, L. Balicas, K. Kuga, T. Matsuo, K. Kindo, M. Tokunaga, S. Nakatsuji, G. Csanyi, Z. Fisk, M. L. Sutherland, Phys. Rev. Lett. 102, 216402 (2009)[Role of f-electrons][Fermi surface][Heavy fermion superconductor].
- M. Okawa, M. Matsunami, K. Ishizaka, R. Eguchi, M. Taguchi, A. Chainani, Y. Takata, M. Yabashi, K. Tamasaku, Y. Nishino, T. Ishikawa, K. Kuga, N. Horie, S. Nakatsuji, S. Shin, arXiv:0906.4899[Strong valence fluctuation][Quantum critical heavy Fermion superconductor][Hard X-ray photoemission].
- Y. Matsumoto, K. Kuga, Y. Karaki, T. Tomita, S. Nakatsuji, arXiv:0908.1242[Low temperature magnetization][Quantum critical heavy fermion superconductor].
- [alpha-YbAlB4, beta-YbAlB4]
- D. A. Tompsett, Z. P. Yin, G. G. Lonzarich, W. E. Pickett, arXiv:1012.1249[Crystal Symmetry][Magnetic instability].
- [Yttrium Hexaboride]
- M. I. Tsindlekht, V. M. Genkin, G. I. Leviev, I. Felner, O. Yuli, I. Asulin, O. Millo, M. A. Belogolovskii, N. Yu. Shitsevalov, arXiv:0707.2211[Linear and nonlinear low frequency electrodynamics][Surface superconducting state][Single crystal].
- [C8K]
- N. B. Hannay, et al., Phys. Rev. Lett., 14 (1965) 225.
- Y. Koike, H. Suematsu, K. Higuchi and S. Tanuma, Physica B+C, 99 (1980) 503.
- [beta-KS0.25C3]
- A. Rodriguez-Fortea, et al., Inorg. Chem., Vol. 45, No. 23, 9387(2006)[SIESTA][Charge transfer][Ternary intercalated]
- [MgCNi3]
- T. He, et al., Nature 411, 54 (2001).
- D. J. Singh and I. I. Mazin, Phys. Rev. B64, 140507(R)(2001)[LAPW][Superconductivity]
- H. Rosner, R. Weht, M. D. Johannes, W. E. Pickett and E. Tosatti, Phys. Rev. Lett., Vol. 88, No. 2, 27001(2002)[Wien97][Superconductivity][Ferromagnetism]
- A. Wälte, et al., Phys. Rev. B70, 174503(2004)[Experiment][Theory][FPLO][Strong electron-phonon coupling]
- L. Shan, Z. Y. Liu, Z. A. Ren, G. C. Che and H. H. Wen, Phys. Rev. B71, 144516(2005)[Experiment][Ferromagnetic spin fluctuation][BCS superconductivity]
- P. Zheng, et al., cond-mat/0507599[Experiment].
- A. Wälte, G. Fuchs, K.-H. Müller, K. Nenkov and L. Schultz, cond-mat/0507716[Specific heat].
- C. Sulkowski, T. Klimczuk, R. J. Cava, K. Rogacki, arXiv:0706.2180[Effect of Fe and Ru substitution for Ni][Thermopower].
- Z. Pribulova, J. Kacmarcik, C. Marcenat, P. Szabo, T. Klein, A. Demuer, P. Rodiere, D. J. Jang, H. S. Lee, H. G. Lee, S.-I. Lee, P. Samuely, arXiv:1105.1057[Superconducting energy gap][Point-contact spectroscopy][Specific-heat measurement].
- A. Kumar, R. Jha, R. P. Tandon, V. P. S. Awana, arXiv:1204.6175[Effect of Boron substitution][Superconductivity][Non-oxide perovskite].
- P. Diener, P. Rodiere, T. Klein, C. Marcenat, J. Kacmarcik, Z. Pribulova, D. J. Jang, H. S. Lee, H. G. Lee, S. I. Lee, arXiv:1301.1879[S-wave superconductivity][Measuring magnetic penetration depth][Lower critical field][Single crystal].
- R. T. Gordon, N. D. Zhigadlo, S. Weyeneth, S. Katrych, R. Prozorov, arXiv:1301.3561[Conventional superconductivity][Hysteretic Campbell penetration depth][Single crystals].
- [MgCyNi3, ZnCyNi3]
- P. J. T. Joseph and P. P. Singh, cond-mat/0602181.
- [MgCxNi3]
- P. J. T. Joseph and P. P. Singh, Phys. Rev. B72, 064519(2005)[KKR-ASA][CPA].
- [MgC(Ni1-xCox)3]
- P. J. T. Joseph and P. P. Singh, Phys. Rev. B72, 214206(2005)[KKR-ASA-CPA][Compositional disorder][Structural][Magnetic][Alloy].
- [MgCNi3, YBRh3]
- P. J. T. Joseph and P. P. Singh, cond-mat/0505310.
- [NbRh2B2]
- D. A. Mayoh, M. J. Pearce, K. Götze, A. D. Hillier, G. Balakrishnan, M. R. Lees, J. Phys.: Condens. Matter 31, 465601 (2019)[arXiv:1908.06853][Superconductivity][Upper critical field][Chiral noncentroysymmetric superconductor]
- [TaRh2B2, NbRh2B2]
- E. M. Carnicom, W. Xie, T. Klimczuk, J. Lin, K. Gornicka, Z. Sobczak, N. P. Ong, R. J. Cava, arXiv:1801.02725[Chiral non-centrosymmetric][Superconductor].
- K. Matano, R. Ogura, M. Fountainea, H. O. Jeschke, S. Kawasaki, G. Zheng, arXiv:2110.04958[Antiferromagnetic spin fluctuation][Superconductivity][Chiral crystal structure]
- [AM2B2, A3Rh8B6 (A = Ca, Sr; M = Rh, Ir)]
- H. Takeya, M. ElMassalami, arXiv:1108.5803[Linear magnetoresistivity][Ternary].
- [LixRhBy]
- H. Takeya, M. ElMassalami, H. S. Amorim, H. Fujii, T. Mochiku, Y. Takano, arXiv:1410.2948[Superconductivity].
- [Li-Rh-B]
- H. Takeya, H. Fujii, M. ElMassalami, F. Chaves, S. Ooi, T. Mochiku, Y. Takano, K. Hirata, K. Togano, arXiv:1102.0623[New noncentrosymmetric superconducting phase].
- [ErRhB4]
- R. Prozorov, M. D. Vannette, S. A. Law, S. L. Bud'ko, P. C. Canfield, arXiv:0707.0029[Zooming][Coexisting regime of ferromagnetism and superconductivity][Single crystal].
- V. Crespo, J. G. Rodrigo, H. Suderow, S. Vieira, D. Hinks, I. K. Schuller, arXiv:0902.0308[Evolution of the local superconducting density of states][Close to the ferromagnetic transition].
- [DyRhB4]
- A. Köhler, G. Behr, G. Fuchs, K. Nenkov, L. C. Gupta, arXiv:0905.4032[Si-induced superconductivity][Structural transformation].
- [LaRh3B2]
- S. Chaudhary, Shama, J. Singh, A. Consiglio, D. Di Sante, R. Thomale, Y. Singh, arXiv:2212.02899[Role of electronic correlations][Kagome lattice superconductor]
- [LaB8]
- Liang Ma, Xin Yang, Guangtao Liu, Hanyu Liu, Guochun Yang, Hui Wang, Jinqun Cai, Mi Zhou, Hongbo Wang, arXiv:2109.02313[Design][Synthesis][Clathrate][Superconductivity].
- [LaBH8]
- S. Di Cataldo, C. Heil, W. von der Linder, L. Boeri, arXiv:2102.11227[The first high-Tc][Low-pressure][Superhydride]
- [Ac-B-H]
- T. Gu, W. Cui, J. Hao, J. Shi, A. P. Durajski, H. Liu, Y. Li, Physical Review B 110, 064105(2024)[Prediction of high-Tc superconductivity][Submegabar pressure][Ternary actinium borohydride][arXiv:2411.19014]
- [MgB3]
- Y. An, et al., arXiv:2207.12031[Topological][Kagome metal magnesium][Triboride].
- [MgB3C3]
- T.-T. Pham, D.-L. Nguyen, arXiv:2212.14184[Superconductivity][Root from critical reduction Mg atoms][MgB2]
].
- [MgB4]
- Z.-N. Xiang, Y.-J. Zhang, Q. Lu, Q. Li, Y. Li, T. Huang, Y. Zhu, Y. Ye, J. Sun, H.-H. Wen, arXiv:2407.06061[Superconductivity][Up to 14.2 K][Under pressure]
- [Re7B3]
- K. Matano, S. Maeda, H. Sawaoka, Y. Muro, T. Takabatake, B. Joshi, S. Ramakrishnan, K. Kawashima, J. Akimitsu, G. Zheng, Journal of the Physical Society of Japan, Vol. 82, No. 8, 084711 (2013)[NMR and NQR][Non-centrosymmetric Superconductors][LaBiPt][BiPd].
- [Re7B3, Re3B]
- S. Sharma, Arushi, K. Motla, J. Beare, M. Nugent, M. Pula, T. J. Munsie, A. D. Hillier, R. P. Singh, G. M. Luke, arXiv:2011.13463[mu-SR study][Superconducting][Re-B compound]
- [NbC]
- N. K. Karn, M. M. Sharma, P. Sharma, G. Gurjar, S. Patnaik, V. P. S. Awana, arXiv:2106.11682[Superconductivity][Topological non-trivial surface state].
- F. Fabris, A. F. Garcia-Flores, J. A. M. Cagigas, J. J. S. Acuna, C. Rettori, R. R. Urbano, arXiv:2403.18022[Nanoparticle][Laser ablation][Liquid][Structural, magnetic and superconductivity properties].
- Mn+1CnO2(M=Nb,Ta)
- Y. Shang, Y. Han, W. Wan, Y. Liu, Y. Ge, arXiv:2403.06380[First-principles study][Two-dimensional transition metal carbide].
- [MoC]
- P. Szab, T. Samuely, V. Haskov,Aa(B, J. Kacmarc,Am(Bk, M. Zemlicka, M. Grajcar, J. G. Rodrigo, P. Samuely, arXiv:1601.05759[Fermionic scenario][Destruction of superconductivity][Ultrathin film][STM measurement].
- A. Huang, A. D. Smith, M. Schwinn, Q. Lu, T.-R. Chang, W. Xie, H.-T. Jeng, G. Bian, arXiv:1709.08143[Multiple topological electronic Phase][Superconductor]
- M. Baranek, P. Neilinger, D. Manca, M. Grajcar, arXiv:2102.13483[Kinetic planar resonator][Strongly disordered][Ultra-thin][Superconducting film][Transmission line spectroscopy]
- [Mo2C]
- J. Zhang, S. Dong, arXiv:1701.00914[Superconductivity][Monolayer][Key role of functional groups].
- J. Lei, A. Kutana, B. I. Yakobson, arXiv:1702.03373[Predicting stable phase][Monolayer][MXene][Superconductor][Chemically-Tunable Critical Temperature].
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- Yu. G. Naidyuk, O. E. Kvitnitskaya, I. K. Yanson, G. Fuchs, K. Nenkov, A. Waelte, G. Behr, D. Souptel, S.-L. Drechsler, cond-mat/0609770[Point-contact spectroscopy][Antiferromagnetic superconductor].
- Yu. G. Naidyuk, O. E. Kvitnitskaya, I. K. Yanson, G. Fuchs, K. Nenkov, A. Waelte, G. Behr, D. Souptel, S.-L. Drechsler, Phys. Rev. B76, 015520(2007)[Point-contact spectroscopy][Antiferromagnetic superconductor][Normal and superconducting state].
- K. D. D. Rathnayaka, B. I. Belevtsev, D. G. Naugle, arXiv:0711.0533[Torque magnetometry[Metamagnetic transition].
- M. Ramazanoglu, M. Laver, A. Yagmurcu, E.-M. Choi, S.-I. Lee, A. Knigavko, B. D. Gaulin, arXiv:1405.2109[Small-angle neutron scattering][Magnetization].
- [ErNi2B2C]
- M. Crespo, H. Suderow, S. Vieira, S. Bud'ko and P. C. Canfield, Phys. Rev. Lett., Vol. 96, No. 2, 027003(2006)[Local superconducting DOS].
- H. Bluhm, S. E. Sebastian, J. W. Guikema, I. R. Fisher and K. A. Moler, Phys. Rev. B73, 014514(2006)[Scanning Hall probe imaging].
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- N. L. Bobrov, V. N. Chernobay, Yu. G. Naidyuk, L. V. Tyutrina, I. K. Yanson, D. G. Naugle, K. D. D. Rathnayaka, arXiv:1006.5933[Observation][Anisotropic effect of antiferromagnetic ordering][Superconducting gap].
- H. Hodovanets, S. Ran, S. L. Bud'ko, P. C. Canfield, arXiv:1203.4131[Boron isotope effect][Single crystal][Superconductor].
- L. N. Bulaevskii and S. Lin, Phys. Rev. Lett. 109 (2012) 027001[Prediction of Polaronlike Vortices][Dissociation Depinning Transition][Magnetic Superconductor].
- J. A. Galvis, M. Crespo, I. Guillamon, H. Suderow, S. Vieira, M. Garcia Hernandez, S. Bud'ko, P. C. Canfield, arXiv:1210.2654[Magnetic][Superconducting phase diagram].
- M. Weigand, L. Civale, F. J. Baca, J. Kim, S. L. Bud'ko, P. C. Canfield, B. Maiorov, arXiv:1301.7146[Strong enhancement][Critical current][Antiferromagnetic transition].
- D. Wulferding, I. Yang, J. Yang, M. Lee, H. C. Choi, S. L. Bud'ko, P. C. Canfield, H. W. Yeom, J. Kim, arXiv:1508.03462[Spatially resolved penetration depth measurement][Vortex manipulation][Ferromagnetic superconductor]
- [ErNi2B2C, HoNi2B2C]
- L. Ya. Vinnikov, J. Anderegg, S. L. Bud'ko, P. C. Canfield and V. G. Kogan, Phys. Rev. B71, 224513(2005)[Domain structure][High-resolution Bitter decoration]
- E. E. M. Chia, W. Cheong, T. Park, M. B. Salamon, E. Choi and S. Lee, Phys. Rev. B72, 214505(2005)[Magnetic order][Superfluid response][Penetration depth].
- D. G. Naugle, B. I. Belevtsev, K. D. D. Rathnayaka, S. A. Adegbenro, P. C. Canfield and S.-I. Lee, cond-mat/0511488[Torque magnetometry][Metamagnetic transition][Single crystal]
- [(Er-Ho)Ni2B2C]
- S. Gundogdu, J. P. Clancy, G. Xu, Y. Zhao, P. A. Dube, T. C. Karalar, B. K. Cho, J. W. Lynn, M. Ramazanoglu, arXiv:2008.03743[Magnetic order][Competition with superconductivity]
- [Er1-xTbxNi2B2C (x = 0.2 and 0.3)]
- H. Kawano-Furukawa, T. Nagata, H. Takeshita, M. Matsumoto, C. Kobayashi, H. Yoshizawa, and H. Takeya, Journal of the Physical Society of Japan, Vol. 77, No. 10, 104718(2008)[Magnetism][Superconductivity].
- [PrT2B2C(T = Co, Ni, Pt)]
- R. Falconi, A. Duran, M. Nunez-Regueiro, R. Escudero, arXiv:1009.4437[Pressure effect][Chemical pressure].
- [TbNi2B2C]
- S. Anissimova, A. Kreyssig, O. Stockert, M. Loewenhaupt, D. Reznik, arXiv:1105.3966[Temperature dependence of low-energy phonons][Magnetic non-superconducting].
- [TbNi2B2C, ErNi2B2C]
- I. S. Veschunov, L. Ya. Vinnikov, S. L. Bud'ko, P. C. Canfiel, Phys. Rev. B76, 174508(2007)[Visualization of ferromagnetic domains][Single crystals][Weak ferromagnetism][Coexistence][Superconductivity]
- M. ElMassalami, M. Amara, R.-M. Galera, D. Schmitt and H. Takeya, Phys. Rev. B76, 104410(2007)[Magnetoelasticity][H-T phase diagram].
- [RNi2B2C (R = Y, Dy, Ho, Er, Tm, Lu]
- Yu. G. Naidyuk, D. L. Bashlakov, N. L. Bobrov, V. N. Chernobay, O. E. Kvitnitskaya, I. K. Yanson, G. Behr, S.-L. Drechsler, G. Fuchs, D. Souptel, D. G. Naugle, K. D. D. Rathnayaka, J. H. Ross Jr., cond-mat/0609771[Point-contact spectroscopy][Superconductor].
- [RNi2B2C (R = Tm , Er, Ho, Dy)]
- J. Jensen and P. Hedeg,Ae(Brd, Phys. Rev. B76, 094504(2007)[Competing magnetic][Superconducting order].
- Yu. G. Naidyuk, N. L. Bobrov, V. N. Chernobay, S.-L. Drechsler, G. Fuchs, O. E. Kvitnitskaya, D. G. Naugle, K. D. D. Rathnayaka, I. K. Yanson, arXiv:0806.4814[Superconducting gap behavior][Antiferromagnetic][Point-contacts spectroscopy].
- [RNi2B2C]
- S. Das, P. C. Padhi, arXiv:1512.08702[Effect of External Magnetic Field][Co-existence of Superconductivity][Antiferromagnetism][Rare Earth].
- [R1-xGdxNi2B2C (R = Lu, Y)]
- S. L. Bud'ko, V. G. Kogan, H. Hodovanets, S. Ran, S. A. Moser, M. J. Lampe, P. C. Canfield, arXiv:1009.1660[Evolution][Ground state][Upper critical field][Coexistence of superconductivity and spin-glass state ].
- [RNi2B2C,R(Ni1-xCox)B2C (R = Ho, Er)]
- N. C. Costa, J. P. Lima, T. C. L. Paiva, M. ElMassalami, R. R. dos Santos, arXiv:1702.03359[Coexistence between magnetism and superconductivity][Kondo--attractive-Hubbard model][Case study].
- [Mixed rare-earth nickel borocarbides: (R,R')Ni2B2C]
- J. Freudenberger, K.-H. Mueller, G. Fuchs, M. Wolf, K. Nenkov, L. Schultz, arXiv:0811.1694[Pair weakening].
- [WCx]
- J. Barzola-Quiquia, M. Ziese, P. Esquinazi, N. Garcia, arXiv:0912.1270[Andreev reflection measurement][Nanostructure][Amorphous][Superconducting contact].
- [Ni2X2 (X=pnictide, chalcogenide or B]
- F. Ronning, E. D. Bauer, T. Park, N. Kurita, T. Klimczuk, R. Movshovich, A. S. Sefat, D. Mandrus, J. D. Thompson, arXiv:0902.4423[Superconductor].
- [Borocarbide]
- Yu. A. Kolesnichenko and S.N. Shevchenko, cond-mat/0512122[Josephson effect][Weak link].
- A. N. Zholobenko, G. P. Mikitik, V. D. Fil, D. V. Fil, J. D. Kim, E. M. Choi and S. I. Lee, cond-mat/0601115[Pinning][Nonmagnetic].
- [Layered metal borocarbides]
- C. R. Tomassetti, G. P. Kafle, E. T. Marcial, E. R. Margine, A. N. Kolmogorov, arXiv:2403.00738[Prospect][High-temperature superconductivity].
- [Li3CaC6]
- N. Emery, C. Herold, J. Mareche, C. Bellouard, G. Loupias and P. Lagrange, cond-mat/0512114[Intercalated graphite].
- [C6-2x(BN)x biphenylene network]
- G. F. Yang, H. X. Song, D. Wang, H. Wang, H. Y. Geng, arXiv:2402.15801[Topological and superconducting properties][Two-dimensional][Biphenylene network][First-principles investigation]
- [Ti2InC]
- I. R. Shein, A. L. Ivanovskii, arXiv:0811.2082[Electronic band structure][Elastic][Superconducting nanolaminate].
- [Ti2InX (X = C, N)]
- M. Roknuzzaman, A. K. M. A. Islam, arXiv:1206.4514[Ab initio investigation][Superconducting MAX phases].
- [Carbon-based systems]
- Y. Kopelevich, P. Esquinazi, cond-mat/0609497[Ferromagnetism and Superconductivity].
- [Metal coated graphene]
- B. Uchoa, A. H. C. Neto, cond-mat/0608515[Superconductivity][Metal coated graphene].
- [Graphene]
- M. V. Feigel'man, M. A. Skvortsov, K. S. Tikhonov, arXiv:0810.0109[Proximity-induced superconductivity].
- [Pristine B2C single layer]
- J. Dai, Z. Li, J. Yang, J. Hou, arXiv:1204.1781[A First-principles Prediction][Two-Dimensional Superconductivity].
- [LiB2C2]
- M. Gao, X.-W. Yan, Z.-Y. Lu, T. Xiang, arXiv:1911.12690[Strong coupling superconductivity][Trilayer film].
- [MB2C8 (M = Na, K, Rb, Cs)]
- B. Li, Y. Cheng, C. Zhu, J. Cheng, S. Liu, Phys. Rev. B 109, 184517 (2024) [Superconductivity near 70 K][Boron-carbon clathrate][Ambient pressure][arXiv:2405.13752].
- [Li-α-B12](Tc = 36 K?)
- [Li3CsC60](Tc = 10.5 K)
- [K3C60]
- E. Rowe, B. Yuan, M. Buzzi, G. Jotzu, Y. Zhu, M. Fechner, M. Först, B. Liu, D. Pontiroli, M. Ricco, A. Cavalleri, arXiv:2301.08633[Giant resonant enhancement][Photo-induced superconductivity]
- [CsC60]
- Y. Ihara, H. Alloul, P. Wzietek, D. Pointiroli, M. Mazzani, M. Ricco, arXiv:1003.2937[NMR][Mott transition][Superconductivity][Two phases].
- P. Wzietek, T. Mito, H. Alloul, D.Pontiroli, M. Aramini, M. Ricco, arXiv:1310.5529[NMR][Superconducting gap variation][Near the Mott transition].
- [W7Re13X(X = B,C)]
- K. Kawashima, et al., J. Phys. Soc. Jpn. 74 (2005) 700.
- [Ru7B3]
- L. Fang, H. Yang, X. Zhu, G. Mu, Z. Wang, L. Shan, C. Ren, H. Wen, arXiv:0811.2252[Noncentrosymmetric superconductor].
- R. P. Singh, N. A. Parzyk, M. R. Lees, D. M. Paul, G. Balakrishnan, arXiv:1403.1776[Crystal growth][Non-centrosymmetric superconductor].
- A. S. Cameron, Y. S. Yerin, Y. V. Tymoshenko, P. Y. Portnichenko, A. S. Sukhanov, M. Ciomaga Hatnean, D. McK. Paul, G. Balakrishnan, R. Cubitt, A. Heinemann, D. S. Inosov, arXiv:2202.03910[Singlet-triplet mixing][Order parameter][Noncentrosymmetric superconductor].
- A. S. Cameron, Y. V. Tymoshenko, P. Y. Portnichenko, A. S. Sukhanov, M. Ciomaga Hatnean, D. McK. Paul, G. Balakrishnan, R. Cubitt, D. S. Inosov, arXiv:2209.14820[Adherence][Rotating vortex lattice][Noncentrosymmetric superconductor][London model]
- [Nb2C]
- Z. U. D. Babar, M. S. Anwar, M. Mumtaz, M. Iqbal, R.-K. Zheng, D. Akinwande, S. Rizwan, arXiv:1908.03987[Novel two-dimensional][MXene][Highest-Tc superconductivity].
- [Nb2BN]
- O. V. Cigarroa, S. T. Renosto, A. J. S. Machado, arXiv:1401.0834[Conventional Superconductivity][Ternary].
- [Nb2SnC]
- A. D. Bortolozo, O. H. SantAnna, M. S. da Luz, C. A. M. dos Santos, A. S. Pereira, K. S. Trentin, A. J. S. Machado, cond-mat/0604605[Superconductivity].
- [Nb2InC]
- I. R. Shein, A. L. Ivanovskii, arXiv:1004.1020[Elastic][New 7.5 K superconductor].
- [Nb2AC (A = S, Sn)]
- M. T. Nasir, A. K. M. A. Islam, arXiv:1206.5895[Superconducting MAX phases][Ab-initio study].
- [Nb2C-MXene]
- K. Wang, H. Jin, H. Li, Z. Mao, L. Tang, D. Huang, J.-H. Liao, J. Zhang, arXiv:2201.00298[Surface functional group][Superconductivity][Experiment][Density functional theory calculation].
- [Nb4Rh2C1-delta]
- K. Ma, K. Gornicka, R. Lefevre, Y. Yang, H. M. Roennow, H. O. Jeschke, T. Klimczuk, F. O. von Rohr, arXiv:2106.13063[Superconductivity][High upper critical field][Cubic centrosymmetric].
- [Nb4AC3 (A = Al, Si, Ga, Ge)]
- T. Yue, B. Wang, W. Sun, Z. Xiao-shuo, F. Xiao-xue, Y. Mu-fu,
Fu Yu-dong, arXiv:1509.04105[Theoretical
prediction][Multifunctional][Potential superconductor][Unconventional
optical properties].
- [Mg10Ir19B16]
- T. Klimczuk, Q. Xu, E. Morosan, J. D. Thompson, H. W. Zandbergen and R. J. Cava, Phys. Rev. B74, 220502(R)(2006)[Superconductivity][Noncentrosymmetric].
- B. Wiendlocha, J. Tobola and S. Kaprzyk, cond-mat/0704.1295[Noncentrosymmetric superconductor]
- G. Mu, Y. Wang, L. Shan, H. Wen, arXiv:0706.0778[Nodeless superconductivity][Noncentrosymmetric Superconductor].
- T. Klimczuk, F. Ronning, R. J. Cava, J.D. Thompson, arXiv:0706.2177[Noncentrosymmetric superconductor].
- R. Yoshida, H. Okazaki, K. Iwai, K. Noami, T. Muro, M. Okawa, K. Ishizaka, S. Shin, Z. Li, J. Luo, G. Zheng, T. Oguchi, M. Hirai, Y. Muraoka and T. Yokoya, Journal of the Physical Society of Japan, Vol. 78, No. 3, 034705(2009)[Superconducting gap][Laser and synchrotron photoemission spectroscopy].
- [Mg12-deltaIr19B16]
- G. Mu, Y. Wang, L. Shan, H. Wen, Phys. Rev. B76, 064527(2007)[Possible nodeless superconductivity][Noncentrosymmetric superconductor].
- G. Mu, H. Yang, H. Wen, arXiv:1006.1709[Multi-band effect][Noncentrosymmetric superconductors][Hall effect][Magnetoresistance measurements].
- [Diborides of transition 3d-5d metals]
- A. L. Ivanovskii, Progress in Materials Science, Vol. 57, Issue 1 (2012) 184 - 228[Mechanical][Novel ultra-incompressible][Superhard].
- [Author's calculational results]
- K. Kobayashi and M. Arai, "LiBC and related compounds under high pressure", Physica C 388 - 389 (2003) 201 - 202 (LT23).
- K. Kobayashi and M. Arai, "Lattice Anomaly of LiBC and Related Compounds under Anisotropic Compression", Journal of the Physical Society of Japan, Vol. 72, No. 2 (2003) 217.
- K. Kobayashi, M. Arai and K. Yamamoto, "Electronic and lattice properties of MgB2 and related phases under various compression conditions", Journal of the Physical Society of Japan, Vol. 72, No. 11 (2003) 2886, Related paper.
- K. Kobayashi, M. Arai and T. Sasaki, "Lattice Anomalies of MBC (M = H, Li, Na) Under Anisotropic Compression", Trans. MRS-J, Vol. 29, No. 8, 3799-3802 (2004)[IUMRS-ICAM2003](Related paper).
- K. Kobayashi and M. Arai, "Lattice anomaly of MgB(h-BN) under anisotropic compression", Mater. Trans., Vol. 45, No. 5, (2004) 1465 - 1468.
- K. Kobayashi and M. Arai, "Lattice anomaly of MgB(h-BN) and related compounds under various compression conditions", Molecular Simulation, Vol. 30, No. 13 - 15 (2004) 981 - 986 (in Proceedings ICMS-CSW2004).
- [C6B2 and related compounds]
- C6B2(Na3As crystal structure, P63/mmc) is a hypothetical hexagonal layered compound, which has characteristic unoccupied flat bands closed to Fermi level at the Γ - A line. It has weak anharmonicity for a B-C bonding. It is energetically unfavorable.
- K. Kobayashi, Y. Zenitani and J. Akimitsu, "First-Principles Study of C6B2", Physica C, Vol. 426-431, Part 1. (2005) 374 - 380 [ISS2004] <-- As a result of more accurate calculations, we find that anharmonicity of C6B2 is weak (b4/(a2)2 is about 1).
- K. Kobayashi, M. Arai and K. Yamamoto, "First-principles study of C6B2 and related compounds", in proceedings of IWSDRM2005 (STAM, Vol. 7, Supplement 1 (2006) 71 - 77).
- K. Kobayashi, M. Arai and K. Yamamoto, "First-Principles Study of C6M2 (M = B, Al, Mg, Li), C7B and Related Compounds", Mater. Trans., Vol. 47, No. 11 (2006) 2629 - 2637[AlC2, MgC2, LiC2, LiB2].
Related link, references, etc.
- [Presentation]
- IWSDRM2005 [presentation](Many png files) (Impossible to access)
-
- [Electronic band structures]
- [LiBC](P63/mmc, A-B stacking, png[12 kb])
- [HBC](P63/mmc, A-B stacking, png[9.3 kb])
- [MgB2](P6/mmm, png[11 kb])
- [C6B2](Na3As structure, P63/mmc, png[10 kb])
-
- [Related web page]
- [LiBC]
-
- [Related papers]
- Science and Technology of Advanced Materials(STAM)[Superconductivity in Diamond and Related Materials], Vol.7, No. S1(2006).
-
- Science and Technology of Advanced Materials(STAM)[Focus on Superconductivity in Semiconductors], Vol.9, Issue 4(2008).
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