Jin-Feng Jia
Shanghai Jiao Tong University
287 Papers
3.9K Citations
Jin-Feng Jia is an academic researcher from Shanghai Jiao Tong University. The author has contributed to research in topics: Scanning tunneling microscope & Topological insulator. The author has an hindex of 52, co-authored 286 publications. Previous affiliations of Jin-Feng Jia include Nanjing University & Chinese Academy of Sciences.
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Papers
Anisotropic gapping of topological Weyl rings in the charge-density-wave superconductor InxTaSe2
Yupeng Li,Yi Wu,Chenchao Xu,Ningning Liu,Jiang Ma,Baijiang Lv,Gang Yao,Yan Liu,Hua Bai,Xiaohui Yang,Lei Qiao,Miaocong Li,Linjun Li,Hui Xing,Yaobo Huang,Junzhang Ma,Ming Shi,Chao Cao,Yang Liu,Canhua Liu,Canhua Liu,Jin-Feng Jia,Jin-Feng Jia,Zhu-An Xu,Zhu-An Xu +24 more
TL;DR: In this article, a topological nodal-line semimetal InxTaSe2 was studied in the presence of both charge density wave (CDW) and superconductivity.
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Self-Assembled Pb Nanostructures on Si(111) Surfaces: From Nanowires to Nanorings
TL;DR: In this paper, a template-directed growth method for metals is described in which ordered arrays of super-long single-crystalline metal nanowires with atomic-level-controlled width, thickness (height), and surface location are prepared by molecular beam epitaxy.
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Highly Mobile Carriers in a Candidate of Quasi-Two-Dimensional Topological Semimetal AuTe$_2$Br
Zeji Wang,Shuyu Cheng,Tay-Rong Chang,Wenlong Ma,Xitong Xu,Huibin Zhou,Guangqiang Wang,Xin Gui,Haipeng Zhu,Zhen Zhu,Hao Zheng,Jin-Feng Jia,Junfeng Wang,Weiwei Xie,Shuang Jia +14 more
TL;DR: In this article, the crystal and electronic structures of a non-centrosymmetric quasi-two-dimensional (2D), candidate of topological semimetal AuTe2Br were reported.
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•Posted Content
Combining quantum spin hall effect and superconductivity in few-layer stanene
Chenxiao Zhao,Jin Qin,Bing Xia,Bo Yang,Hao Zheng,Shiyong Wang,Canhua Liu,Yaoyi Li,Dandan Guan,Jin-Feng Jia +9 more
TL;DR: In this article, a few-layer stanene was successfully grown on bismuth (111) substrate and both topological edge states and superconducting gaps were observed by in-situ scanning tunneling microscopy/spectroscopy (STM/STS).
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