Prof Yulin Chen

Topological insulators: Engineered heterostructures

Nature Materials Nature Publishing Group 16:1 (2016) 3-4

Authors:

Thorsten Hesjedal, Y Chen

Abstract:

The combination of topological properties and magnetic order can lead to new quantum states and exotic physical phenomena. In particular, the coupling between topological insulators and antiferromagnets enables magnetic and electronic structural engineering.

Distinct Electronic Structure for the Extreme Magnetoresistance in YSb.

Physical review letters 117:26 (2016) 267201

Authors:

Junfeng He, Chaofan Zhang, Nirmal J Ghimire, Tian Liang, Chunjing Jia, Juan Jiang, Shujie Tang, Sudi Chen, Yu He, S-K Mo, CC Hwang, M Hashimoto, DH Lu, B Moritz, TP Devereaux, YL Chen, JF Mitchell, Z-X Shen

Abstract:

An extreme magnetoresistance (XMR) has recently been observed in several nonmagnetic semimetals. Increasing experimental and theoretical evidence indicates that the XMR can be driven by either topological protection or electron-hole compensation. Here, by investigating the electronic structure of a XMR material, YSb, we present spectroscopic evidence for a special case which lacks topological protection and perfect electron-hole compensation. Further investigations reveal that a cooperative action of a substantial difference between electron and hole mobility and a moderate carrier compensation might contribute to the XMR in YSb.

Evidence of Both Surface and Bulk Dirac Bands and Anisotropic Nonsaturating Magnetoresistance in ZrSiS

Advanced Electronic Materials Wiley 2:10 (2016)

Authors:

Xuefeng Wang, Xingchen Pan, Ming Gao, Jihai Yu, Juan Jiang, Junran Zhang, Huakun Zuo, Minhao Zhang, Zhongxia Wei, Wei Niu, Zhengcai Xia, Xiangang Wan, Yulin Chen, Fengqi Song, Yongbing Xu, Baigeng Wang, Guanghou Wang, Rong Zhang

Quantum Electronics: Evidence of Both Surface and Bulk Dirac Bands and Anisotropic Nonsaturating Magnetoresistance in ZrSiS (Adv. Electron. Mater. 10/2016)

Advanced Electronic Materials Wiley 2:10 (2016)

Authors:

Xuefeng Wang, Xingchen Pan, Ming Gao, Jihai Yu, Juan Jiang, Junran Zhang, Huakun Zuo, Minhao Zhang, Zhongxia Wei, Wei Niu, Zhengcai Xia, Xiangang Wan, Yulin Chen, Fengqi Song, Yongbing Xu, Baigeng Wang, Guanghou Wang, Rong Zhang

Surface Monocrystallization of Copper Foil for Fast Growth of Large Single-Crystal Graphene under Free Molecular Flow.

Advanced materials (Deerfield Beach, Fla.) 28:40 (2016) 8968-8974

Authors:

Huan Wang, Xiaozhi Xu, Jiayu Li, Li Lin, Luzhao Sun, Xiao Sun, Shuli Zhao, Congwei Tan, Cheng Chen, Wenhui Dang, Huaying Ren, Jincan Zhang, Bing Deng, Ai Leen Koh, Lei Liao, Ning Kang, Yulin Chen, Hongqi Xu, Feng Ding, Kaihui Liu, Hailin Peng, Zhongfan Liu

Abstract:

Wafer-sized single-crystalline Cu (100) surface can be readily achieved on stacked polycrystalline Cu foils via simple oxygen chemisorption-induced reconstruction, enabling fast growth of large-scale millimeter-sized single-crystalline graphene arrays under molecular flow. The maximum growth rate can reach 300 μm min^-1 , several orders of magnitude higher than previously reported values for millimeter-sized single-crystalline graphene growth on Cu foils.