Shiang Fang
Shiang Fang
Google DeepMind
Verified email at
Cited by
Cited by
Unconventional superconductivity in magic-angle graphene superlattices
Y Cao, V Fatemi, S Fang, K Watanabe, T Taniguchi, E Kaxiras, ...
Nature 556 (7699), 43-50, 2018
Correlated insulator behaviour at half-filling in magic-angle graphene superlattices
Y Cao, V Fatemi, A Demir, S Fang, SL Tomarken, JY Luo, ...
Nature 556 (7699), 80-84, 2018
Atomic and electronic reconstruction at the van der Waals interface in twisted bilayer graphene
H Yoo, R Engelke, S Carr, S Fang, K Zhang, P Cazeaux, SH Sung, ...
Nature materials 18 (5), 448-453, 2019
Observation of the nonlinear Hall effect under time-reversal-symmetric conditions
Q Ma, SY Xu, H Shen, D MacNeill, V Fatemi, TR Chang, AM Mier Valdivia, ...
Nature 565 (7739), 337-342, 2019
Dirac fermions and flat bands in the ideal kagome metal FeSn
M Kang, L Ye, S Fang, JS You, A Levitan, M Han, JI Facio, C Jozwiak, ...
Nature materials 19 (2), 163-169, 2020
MoS2 Field-Effect Transistor with Sub-10 nm Channel Length
A Nourbakhsh, A Zubair, RN Sajjad, A Tavakkoli KG, W Chen, S Fang, ...
Nano Letters 16 (12), 7798-7806, 2016
Twistronics: Manipulating the electronic properties of two-dimensional layered structures through their twist angle
S Carr, D Massatt, S Fang, P Cazeaux, M Luskin, E Kaxiras
Physical Review B 95 (7), 075420, 2017
Superlattice-induced insulating states and valley-protected orbits in twisted bilayer graphene
Y Cao, JY Luo, V Fatemi, S Fang, JD Sanchez-Yamagishi, K Watanabe, ...
Physical Review Letters 117 (11), 116804, 2016
Topological flat bands in frustrated kagome lattice CoSn
M Kang, S Fang, L Ye, HC Po, J Denlinger, C Jozwiak, A Bostwick, ...
Nature communications 11 (1), 4004, 2020
Exact continuum model for low-energy electronic states of twisted bilayer graphene
S Carr, S Fang, Z Zhu, E Kaxiras
Physical Review Research 1 (1), 013001, 2019
Twofold van Hove singularity and origin of charge order in topological kagome superconductor CsV3Sb5
M Kang, S Fang, JK Kim, BR Ortiz, SH Ryu, J Kim, J Yoo, G Sangiovanni, ...
Nature Physics 18 (3), 301-308, 2022
Ab initio tight-binding Hamiltonian for transition metal dichalcogenides
S Fang, R Kuate Defo, SN Shirodkar, S Lieu, GA Tritsaris, E Kaxiras
Physical Review B 92 (20), 205108, 2015
Pressure dependence of the magic twist angle in graphene superlattices
S Carr, S Fang, P Jarillo-Herrero, E Kaxiras
Physical Review B 98 (8), 085144, 2018
Electronic-structure methods for twisted moiré layers
S Carr, S Fang, E Kaxiras
Nature Reviews Materials 5 (10), 748-763, 2020
Electronic structure theory of weakly interacting bilayers
S Fang, E Kaxiras
Physical Review B 93, 235153, 2016
Enhancement of interlayer exchange in an ultrathin two-dimensional magnet
DR Klein, D MacNeill, Q Song, DT Larson, S Fang, M Xu, RA Ribeiro, ...
Nature Physics 15 (12), 1255-1260, 2019
Magnetic resonance spectroscopy of an atomically thin material using a single-spin qubit
I Lovchinsky, JD Sanchez-Yamagishi, EK Urbach, S Choi, S Fang, ...
Science 355 (6324), 503-507, 2017
Berry curvature dipole current in the transition metal dichalcogenides family
JS You, S Fang, SY Xu, E Kaxiras, T Low
Physical Review B 98 (12), 121109, 2018
Enhanced superconductivity upon weakening of charge density wave transport in in the two-dimensional limit
Y Yang, S Fang, V Fatemi, J Ruhman, E Navarro-Moratalla, K Watanabe, ...
Physical Review B 98 (3), 035203, 2018
Theory of Graphene Raman Scattering
EJ Heller, Y Yang, L Kocia, W Chen, S Fang, M Borunda, E Kaxiras
ACS nano 10 (2), 2803-2818, 2016
The system can't perform the operation now. Try again later.
Articles 1–20