kw.\*:("Iron Lithium Arsenides Mixed")
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Normal and superconducting properties of LiFeAs explained in the framework of four-band Eliashberg theoryUMMARINO, G. A; GALASSO, Sara; DAGHERO, D et al.Physica. C. Superconductivity. 2013, Vol 492, pp 21-24, issn 0921-4534, 4 p.Article
The Effects of Pressure on the 111 SuperconductorZHANG, S. J; WANG, X. C; YANG, L. X et al.Journal of superconductivity and novel magnetism. 2010, Vol 23, Num 5, pp 587-589, issn 1557-1939, 3 p.Conference Paper
The healing lengths in two-band superconductors in extended Ginzburg―Landau theoryKOMENDOVA, L; SHANENKO, A. A; MILOSEVIC, M. V et al.Physica. C. Superconductivity. 2012, Vol 479, pp 126-129, issn 0921-4534, 4 p.Conference Paper
Calculated Sound Velocity and Elastic Moduli Changes in LaOFeP and LiFeAs at the Superconducting TransitionABD-SHUKOR, R; KONG, W.Journal of superconductivity and novel magnetism. 2011, Vol 24, Num 5, pp 1607-1609, issn 1557-1939, 3 p.Article
Anisotropy Parameters of Critical Fields in LiFeAs Using Two-Band Ginzburg―Landau TheoryASKERZADE, I. N.Journal of superconductivity and novel magnetism. 2013, Vol 26, Num 5, pp 1903-1907, issn 1557-1939, 5 p.Article
Anisotropic Energy Gaps of Iron-Based Superconductivity from Intraband Quasiparticle Interference in LiFeAsALLAN, M. P; ROST, A. W; MACKENZIE, A. P et al.Science (Washington, D.C.). 2012, Vol 336, Num 6081, pp 563-567, issn 0036-8075, 5 p.Article
Determination of the Upper Critical Field of a Single Crystal LiFeAs: The Magnetic Torque Study up to 35 TeslaKURITA, Nobuyuki; KITAGAWA, Kentaro; MATSUBAYASHI, Kazuyuki et al.Journal of the Physical Society of Japan. 2011, Vol 80, Num 1, issn 0031-9015, 013706.1-013706.4Article
75 As NQR and NMR Studies of Superconductivity and Electron Correlations in Iron Arsenide LiFeAsZHENG LI; OOE, Yosuke; WANG, Xian-Cheng et al.Journal of the Physical Society of Japan. 2010, Vol 79, Num 8, issn 0031-9015, 083702.1-083702.4Article
Striped antiferromagnetic order and electronic properties of stoichiometric LiFeAs from first-principles calculationsLI, Y.-F; LIU, B.-G.The European physical journal. B, Condensed matter physics (Print). 2009, Vol 72, Num 2, pp 153-157, issn 1434-6028, 5 p.Article
Modelling the electronic structure and magnetic properties of LiFeAs and FeSe using hybrid-exchange density functional theoryWEI WU.Solid state communications. 2013, Vol 161, pp 23-28, issn 0038-1098, 6 p.Article
Structural Distortion as Prerequisite for Superconductivity in LiFeAsKRÜGER, Ekkehard; STRUNK, Horst P.Journal of superconductivity and novel magnetism. 2012, Vol 25, Num 6, pp 1743-1745, issn 1557-1939, 3 p.Article
Evolution of the hyperfine parameters of Fe in superconducting LiFeAs as observed by 57Fe Mössbauer spectroscopyGAO, W. B; LINDEN, J; WANG, X. C et al.Solid state communications. 2010, Vol 150, Num 33-34, pp 1525-1528, issn 0038-1098, 4 p.Article
First-principles study of the magnetic, structural and electronic properties of LiFeAsXINXIN ZHANG; HUI WANG; YANMING MA et al.Journal of physics. Condensed matter (Print). 2010, Vol 22, Num 4, issn 0953-8984, 046006.1-046006.4Article
The synthesis and characterization of LiFeAs and NaFeAsCHU, C. W; CHEN, F; GOOCH, M et al.Physica. C. Superconductivity. 2009, Vol 469, Num 9-12, pp 326-331, issn 0921-4534, 6 p.Article
Enhanced density of states in Li(Fe1―xCox)As single crystals near x = 0.06 as implied by transport propertiesBUMSUNG LEE; SEUNGHYUN KHIM; JEON, Byung-Jo et al.Physica. C. Superconductivity. 2013, Vol 495, pp 130-133, issn 0921-4534, 4 p.Article
75As NMR-NQR study in superconducting LiFeAsBAEK, S.-H; GRAFE, H.-J; HAMMERATH, F et al.The European physical journal. B, Condensed matter physics (Print). 2012, Vol 85, Num 5, issn 1434-6028, 159.1-159.10Article
High pressure transport studies of the LiFeAs analogs CuFeTe2 and Fe2AsZOCCO, D. A; TÜTÜN, D. Y; HAMLIN, J. J et al.Superconductor science & technology (Print). 2012, Vol 25, Num 8, issn 0953-2048, 084018.1-084018.7Article
Evolution of Superconducting Properties of LiFeAs Single Crystals Doped with Magnetic or Nonmagnetic ImpuritiesSHLYK, L; BISCHOFF, M; ROSE, E et al.Journal of superconductivity and novel magnetism. 2013, Vol 26, Num 4, pp 1189-1193, issn 1557-1939, 5 p.Conference Paper
Mean-field approach to unconventional superconductivitySACKS, William; MAUGER, Alain; NOAT, Yves et al.Physica. C. Superconductivity. 2014, Vol 503, pp 14-24, issn 0921-4534, 11 p.Article
Zr2Fe12As7 and Hf2+xFe12―yAs7 with Zr2Fe12P7 type structure: Iron arsenides with layered sections from LiFeAs structureBISCHOFF, M; SHLYK, L; NIEWA, R et al.Solid state sciences. 2013, Vol 21, pp 100-105, issn 1293-2558, 6 p.Article
Nanotubes of layered iron-based superconductors: Simulations of atomic structure and electronic propertiesSHEIN, I. R; ENYASHIN, A. N; IVANOVSKII, A. L et al.Computational materials science. 2011, Vol 50, Num 3, pp 824-827, issn 0927-0256, 4 p.Article
Bonding in the 111 Type Ferropnictide Superconductor LiFeAsZHI LI; TSE, J. S; JIN, C. Q et al.Journal of superconductivity and novel magnetism. 2010, Vol 23, Num 5, pp 579-581, issn 1557-1939, 3 p.Conference Paper
First-Principles Study for the Anisotropy of Iron-Based Superconductors toward Power and Device ApplicationsNAKAMURA, Hiroki; MACHIDA, Masahiko; KOYAMA, Tomio et al.Journal of the Physical Society of Japan. 2009, Vol 78, Num 12, issn 0031-9015, 123712.1-123712.4Article
Single Crystal Growth and Characterization of Superconducting LiFeAsMOROZOV, Igor; BOLTATIN, Alexander; FUCHS, Madeleine et al.Crystal growth & design. 2010, Vol 10, Num 10, pp 4428-4432, issn 1528-7483, 5 p.Conference Paper
LiFeAs Pnictide Superconductor—A Simple Electrochemical Method of PreparationKANUCHOVA, M; MAJOROS, M; KANUCH, J et al.IEEE transactions on applied superconductivity. 2013, Vol 23, Num 3, issn 1051-8223, 73002.1-73002.4, 3Conference Paper