Gengchiau Liang
Cited by
Cited by
Performance projections for ballistic graphene nanoribbon field-effect transistors
G Liang, N Neophytou, DE Nikonov, MS Lundstrom
IEEE Transactions on Electron Devices 54 (4), 677-682, 2007
Silicon-based molecular electronics
T Rakshit, GC Liang, AW Ghosh, S Datta
Nano Letters 4 (10), 1803-1807, 2004
Thermoelectric performance of MX2 (M = Mo,W; X = S,Se) monolayers
W Huang, H Da, G Liang
Journal of Applied Physics 113 (10), 104304, 2013
Sub-100 nanometer channel length Ge/Si nanowire transistors with potential for 2 THz switching speed
Y Hu, J Xiang, G Liang, H Yan, CM Lieber
Nano letters 8 (3), 925-930, 2008
Theoretical study of thermoelectric properties of few-layer MoS 2 and WSe 2
W Huang, X Luo, CK Gan, SY Quek, G Liang
Physical Chemistry Chemical Physics 16 (22), 10866-10874, 2014
Performance analysis of a Ge/Si core/shell nanowire field-effect transistor
G Liang, J Xiang, N Kharche, G Klimeck, CM Lieber, M Lundstrom
Nano letters 7 (3), 642-646, 2007
Graphene-based spin caloritronics
M Zeng, Y Feng, G Liang
Nano letters 11 (3), 1369-1373, 2011
All-electric magnetization switching and Dzyaloshinskii–Moriya interaction in WTe2/ferromagnet heterostructures
S Shi, S Liang, Z Zhu, K Cai, SD Pollard, Y Wang, J Wang, Q Wang, P He, ...
Nature nanotechnology 14 (10), 945-949, 2019
Disorder enhances thermoelectric figure of merit in armchair graphane nanoribbons
X Ni, G Liang, JS Wang, B Li
Applied Physics Letters 95 (19), 192114, 2009
Ballistic graphene nanoribbon metal-oxide-semiconductor field-effect transistors: A full real-space quantum transport simulation
G Liang, N Neophytou, MS Lundstrom, DE Nikonov
Journal of Applied Physics 102 (5), 054307, 2007
Electrostatic potential profiles of molecular conductors
GC Liang, AW Ghosh, M Paulsson, S Datta
Physical Review B 69 (11), 115302, 2004
Ultrafast and energy-efficient spin–orbit torque switching in compensated ferrimagnets
K Cai, Z Zhu, JM Lee, R Mishra, L Ren, SD Pollard, P He, G Liang, KL Teo, ...
Nature Electronics 3 (1), 37-42, 2020
Single atomically sharp lateral monolayer p‐n heterojunction solar cells with extraordinarily high power conversion efficiency
ML Tsai, MY Li, JRD Retamal, KT Lam, YC Lin, K Suenaga, LJ Chen, ...
Advanced materials 29 (32), 1701168, 2017
High oscillator strength interlayer excitons in two-dimensional heterostructures for mid-infrared photodetection
S Lukman, L Ding, L Xu, Y Tao, AC Riis-Jensen, G Zhang, QYS Wu, ...
Nature Nanotechnology 15 (8), 675-682, 2020
Contact effects in graphene nanoribbon transistors
G Liang, N Neophytou, MS Lundstrom, DE Nikonov
Nano letters 8 (7), 1819-1824, 2008
An ab initio study on energy gap of bilayer graphene nanoribbons with armchair edges
KT Lam, G Liang
Applied Physics Letters 92 (22), 223106, 2008
Theoretical study on thermoelectric properties of kinked graphene nanoribbons
W Huang, JS Wang, G Liang
Physical Review B 84 (4), 045410, 2011
A simulation study of graphene-nanoribbon tunneling FET with heterojunction channel
KT Lam, D Seah, SK Chin, SB Kumar, G Samudra, YC Yeo, G Liang
IEEE Electron Device Letters 31 (6), 555-557, 2010
Molecules on silicon: Self-consistent first-principles theory and calibration to experiments
T Rakshit, GC Liang, AW Ghosh, MC Hersam, S Datta
Physical Review B 72 (12), 125305, 2005
Spin-dependent thermoelectric effects in graphene-based spin valves
M Zeng, W Huang, G Liang
Nanoscale 5 (1), 200-208, 2013
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