Zhengfei Wang
Zhengfei Wang
Потвърден имейл адрес: ustc.edu.cn
Atomic layers of hybridized boron nitride and graphene domains
L Ci, L Song, C Jin, D Jariwala, D Wu, Y Li, A Srivastava, ZF Wang, K Storr, ...
Nature Materials 9 (5), 430-435, 2010
Redox control and high conductivity of nickel bis (dithiolene) complex π-nanosheet: A potential organic two-dimensional topological insulator
T Kambe, R Sakamoto, T Kusamoto, T Pal, N Fukui, K Hoshiko, ...
Journal of the American Chemical Society 136 (41), 14357–14360, 2014
Analytical study of electronic structure in armchair graphene nanoribbons
H Zheng, ZF Wang, T Luo, QW Shi, J Chen
Physical Review B 75 (16), 165414, 2007
Spatial and energy distribution of topological edge states in single Bi (111) bilayer
F Yang, L Miao, ZF Wang, MY Yao, F Zhu, YR Song, MX Wang, JP Xu, ...
Physical Review Letters 109 (1), 016801, 2012
Quantum anomalous Hall effect in 2D organic topological insulators
ZF Wang, Z Liu, F Liu
Physical Review Letters 110 (19), 196801, 2013
Prediction of a two-dimensional organic topological insulator
ZF Wang, N Su, F Liu
Nano Letters 13 (6), 2842-2845, 2013
Organic topological insulators in organometallic lattices
ZF Wang, Z Liu, F Liu
Nature Communications 4, 1471, 2013
Flat Chern band in a two-dimensional organometallic framework
Z Liu, ZF Wang, JW Mei, YS Wu, F Liu
Physical Review Letters 110 (10), 106804, 2013
Tuning the electronic structure of graphene nanoribbons through chemical edge modification: A theoretical study
ZF Wang, Q Li, H Zheng, H Ren, H Su, QW Shi, J Chen
Physical Review B 75 (11), 113406, 2007
Epitaxial growth of large-gap quantum spin Hall insulator on semiconductor surface
M Zhou, W Ming, Z Liu, ZF Wang, P Li, F Liu
Proceedings of the National Academy of Sciences 111 (40), 14378-14381, 2014
Topological edge states in a high-temperature superconductor FeSe/SrTiO (001) film
ZF Wang, H Zhang, D Liu, C Liu, C Tang, C Song, Y Zhong, J Peng, F Li, ...
Nature Materials 15 (9), 968–973, 2016
PtCo octapods as superior catalysts of CO hydrogenation
MU Khan, L Wang, Z Liu, Z Gao, S Wang, H Li, W Zhang, M Wang, ...
Angewandte Chemie International Edition 55 (33), 9548-9552, 2016
Z-shaped graphene nanoribbon quantum dot device
ZF Wang, QW Shi, Q Li, X Wang, JG Hou, H Zheng, Y Yao, J Chen
Applied Physics Letters 91 (5), 053109, 2007
Prediction of a Dirac state in monolayer TiB
LZ Zhang, ZF Wang, SX Du, HJ Gao, F Liu
Physical Review B 90 (16), 161402(R), 2014
Band-gap scaling of graphene nanohole superlattices
W Liu, ZF Wang, QW Shi, J Yang, F Liu
Physical Review B 80 (23), 233405, 2009
Spatially separated spin carriers in spin-semiconducting graphene nanoribbons
ZF Wang, S Jin, F Liu
Physical Review Letters 111 (9), 096803, 2013
Fractal Landau-level spectra in twisted bilayer graphene
ZF Wang, F Liu, MY Chou
Nano Letters 12 (7), 3833-3838, 2012
Intrinsic quantum anomalous Hall effect with in-plane magnetization: Searching rule and material prediction
Z Liu, G Zhao, B Liu, ZF Wang, J Yang, F Liu
Physical Review Letters 121 (24), 246401, 2018
Chiral selective tunneling induced negative differential resistance in zigzag graphene nanoribbon: A theoretical study
ZF Wang, Q Li, QW Shi, X Wang, J Yang, JG Hou, J Chen
Applied Physics Letters 92 (13), 133114, 2008
Robustness of two-dimensional topological insulator states in bilayer bismuth against strain and electrical field
L Chen, ZF Wang, F Liu
Physical Review B 87 (23), 235420, 2013
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