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刘旭,应天平* 亚稳态新型铁硒基超导体探索 《中国科学: 物理学 力学 天文学》邀请综述 DOI:10.1360/SSPMA-2023-0208 (2023)
X. Chen†, J. Deng†, S.-F. Jin†, T. P. Ying*, S. X. Du*, J.-G. Guo*, X. L. Chen*, et al. "Two-dimensional Pb square nets from bulk (RO)nPb (R = rare earth metals, n = 1,2)" J. Am. Chem. Soc., 145, 31, 17435–17442 (2023). 发现类单层Pb电子结构的一系列化合物及其超导电性。
B. Q. Song†, T. P. Ying†*, X. X. Wu†, W. Xia†, Q. W. Yin†, H. C. Lei*, Y. F. Guo*, S. Y. Li*, et al. "Anomalous enhancement of charge density wave in kagome superconductor CsV3Sb5 approaching the 2D limit" Nat. Commun. 14, 2492 (2023). 二维超导 发现笼目CsV3Sb5的CDW转变温度随层数的变化存在一个临界厚度(~25层),在临界厚度之下TCDW随层数减少迅速上升,其背后机制可能发生从电声耦合(高温)到电子关联(低温)的变化。
J. J. Wang†, T. P. Ying†*, J. Deng†, C. Y. Pei†, Y. P. Qi*, J.-G. Guo*, et al. "Superconductivity in an Orbital-reoriented SnAs Square Lattice: a Case Study of Li0.6Sn2As2 and NaSnAs" Angew. Chem. Int. Ed. 62, e2022160 (2023). 高压超导 高压诱导SnAs3-SnAs4结构拓扑相变,实现SnAs四方平面超导基元。
X. Chen†, J. J. Wang†, T. P. Ying*, J.-G. Guo*, X. L. Chen*, et al. "Insulator-metal-Superconductor transition in medium-entropy van der Waals compound MPSe3 (M=Fe, Mn, Cd, and In) under high pressures" Phys. Rev. B 106, 184502 (2022). 高熵二维材料
X. Chen, T. P. Ying*, J.-G. Guo*, X. L. Chen*, et al. "Superatomic-charge-density-wave in cluster-assembled Au6Te12Se8 superconductor" J. Am. Chem. Soc., 144, 45, 20915–20922 (2022). 超原子超导体 该工作研究超原子材料在压力下的响应,我们不仅观察“超原子”级别的电荷密度波(S-CDW)比原子材料CDW对压力敏感1-2个数量级,而且Au6Te12Se8随压力表现出Tc=8.5K的超导再进入,并伴随导电通道和费米面的重取向。
Z. X. Chen, Y. X. Yang, J. Deng, S. X. Du, T. P. Ying*, J.-G. Guo*, X. L. Chen, "Delicate Superconductivity in Nodal-line NaAlGe Single Crystal" J. Phys. Condens. Matter, J. Phys.: Condens. Matter 34 495702 (2022) 新超导体
T. P. Ying†, T. X. Yu†, Y. P. Qi, X. L. Chen*, H. Hosono*, "High entropy van der Waals materials" Adv. Sci. 2203219 (2022) 高熵二维材料综述
J.-G. Guo†, T. P. Ying†, H. B. Gao, X. Chen, Y. P. Song, T. Lin, Q. H. Zhang, Q. Zheng*, C. L. Li, Y. G. Xu, X. L. Chen*, "Surface microstructures of lunar soil returned by Chang’e-5 mission reveal an intermediate stage in space weathering process" Science Bulletin, 67(16) 1696-1701 (2022) (co-first author) 月壤微结构
C. Y. Pei, T. P. Ying*, Y. Zhao, L. L. Gao, W. Z. Cao, C. H. Li, H. Hosono, and Y. P. Qi*, "Pressure-induced reemergence of superconductivity in BaIr2Ge7 and Ba3Ir4Ge16 with cage structures" Matter and Radiation at Extremes 7, 038404 (2022) 新超导体
C. Y. Pei†, T. P. Ying*,†, Q. H. Zhang†, X. X. Wu, T. X. Yu, Y. Zhao, L. L. Gao, C. H. Li, W. Z. Cao, Q. Zhang, A. P. Schnyder, L. Gu, X. L. Chen, H. Hosono*, Y. P. Qi*, "Caging-pnictogen-induced superconductivity in skutterudites IrX3 (X = As, P)" J. Am. Chem. Soc. 144, 14, 6208-6214 (2022) 新超导体 通过压力诱导笼状结构“自填充”,从而实现第一个空穴掺杂的方钴矿超导体,并且自填充的X原子在费米面处贡献三条独立的能带及拓扑属性。
Y. X. Yang, W. H. Fan, Q. H. Zhang, Z. X. Chen, X. Chen, T. P. Ying*, X. X. Wu, X. F. Yang, F. Q. Meng, G. Li, S. Y. Li, L. Gu, T. Qian, A. P. Schnyder, J.-G. Guo*, X. L. Chen*, "Discovery of two families of VSb-based compounds with V-kagome lattice" Chin. Phys. Lett. 38, 127102 (2021) (Editors' suggestions) 新结构
Y. P. Qi*†, T. P. Ying*†, X. X. Wu, Z. Y. Dong, M. Sasase, Q. Zhang, W. Y. Liu, M. Ichihara, Y. H. Ma, J. P. Hu, H. Hosono*, “Superconductivity from buckled-honeycomb-vacancy ordering” Science Bulletin, 66(4), 327-331 (2021) (selected cover image) 新超导体 由空位形成的“褶皱”蜂窝状晶体结构,抑制该“空位序”可以诱导超导电性。
Y. P. Song†, T. P. Ying†, X. Chen, X. Han, Y. Huang, X. X. Wu*, A. P. Schnyder, J.-G. Guo*, X. L. Chen*, “Competition of superconductivity and charge density wave in selective oxidized CsV3Sb5 thin flakes” Phys. Rev. Lett. 127, 237001 (2021) (co-first author) 二维超导 利用维度调控和选择性氧化实现CsV3Sb5的空穴掺杂。
T. P. Ying*, T. X. Yu, Y.-S. Shiah, C. H. Li, J. Li, Y. P. Qi*, H. Hosono*, “High-Entropy van der Waals Materials Formed from Mixed Metal Dichalcogenides, Halides, and Phosphorus Trisulfides” J. Am. Chem. Soc. 143, 7042-7049 (2021) 高熵二维材料 “高熵合金”和“二维层状化合物”两个领域的交叉,通过将二维材料的结构基元“高熵化”,得到一系列具有丰富物性的新材料体系。相关报道:“Seeking strength in diversity”。JACS高被引论文。
T. P. Ying, Y. Muraba, S. Iimura, T. X. Yu, P. H. Cheng, T. Kamiya, Y. F. Lu, J. Li, Y. P. Qi, H. Hosono*, “Anomalous charge state evolution and its control of superconductivity in M3Al2C (M= Mo, W)” iScience, 101196 (2020) 新超导体
T. P. Ying, Y. P. Qi, H. Hosono*, “Superconductivity with strong electron-phonon coupling in noncentrosymmetric W3Al2C” Phys. Rev. B 100 (9), 094522 (2019) 新超导体
T. P. Ying†, M. X. Wang†, X.X. Wu, Z. Y. Zhao, Z. Z. Zhang, B.Q. Song, Y. C. Li, B. Lei, Q, Li, Y. J. Yu, E. J. Chen, Y. B. Zhang, X. Y. Jia, W. Yang, X. H. Chen, S. Y. Li*, “Discrete superconducting phases in FeSe-derived superconductors” Phys. Rev. Lett. 121, 207003 (2018) 铁基超导
T. P. Ying, Y. Q. Gu, X. Chen, X. B. Wang, S. F. Jin, L. L. Zhao, W. Zhang, X. L. Chen*, “Anderson localization of electrons in single crystals: LixFe7Se8”, Sci. Adv. 2, e1501283 (2016) 新结构
T. P. Ying, X. F. Lai, X. C. Hong, Y. Xu, L. P. He, J. Zhang, M. X. Wang, Y. J. Yu, F. Q. Huang, S. Y. Li*, “Nodal superconductivity in FeS: Evidence from quasiparticle heat transport”, Phys. Rev. B, 94, 100504(R) (2016) 铁基超导
T. P. Ying, X. L. Chen*, G. Wang*, S. F. Jin, X. F. Lai, T. T. Zhou, H. Zhang, S. J. Shen, W. Y. Wang, “Superconducting Phases in Potassium-Intercalated Iron Selenides”, J. Am. Chem. Soc. 135, 2951-2954 (2013) 铁基超导 发现铁硒基超导体中存在分立超导相。JACS高被引论文。
T. P. Ying, X. L. Chen*, G. Wang*, S. F. Jin, T. T. Zhou, X. F. Lai, H. Zhang, W. Y. Wang, “Observation of superconductivity at 30~46K in AxFe2Se2 (A=Li, Na, Ba, Sr, Ca, Yb, and Eu)”, Sci. Rep. 2, 426 (2012) 铁基超导 率先提出制备高温超导体的全新途径,发现一系列Tc超越麦克米兰极限温度的新型铁基超导体,成为铁基超导制备的主流方法之一。高被引论文。
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