qing tang
qing tang
Verified email at cqu.edu.cn
Cited by
Cited by
Are MXenes Promising Anode Materials for Li Ion Batteries? Computational Studies on Electronic Properties and Li Storage Capability of Ti3C2 and Ti3C2X2 (X …
Q Tang, Z Zhou, P Shen
Journal of the American Chemical Society 134 (40), 16909-16916, 2012
Graphene-analogous low-dimensional materials
Q Tang, Z Zhou
Progress in materials science 58 (8), 1244-1315, 2013
Graphene-related nanomaterials: tuning properties by functionalization
Q Tang, Z Zhou, Z Chen
Nanoscale 5 (11), 4541-4583, 2013
Mechanism of Hydrogen Evolution Reaction on 1T-MoS2 from First Principles
Q Tang, D Jiang
Acs Catalysis 6 (8), 4953-4961, 2016
Nickel sulfides for electrocatalytic hydrogen evolution under alkaline conditions: a case study of crystalline NiS, NiS 2, and Ni 3 S 2 nanoparticles
N Jiang, Q Tang, M Sheng, B You, D Jiang, Y Sun
Catalysis Science & Technology 6 (4), 1077-1084, 2016
Ag29(BDT)12(TPP)4: A Tetravalent Nanocluster
LG AbdulHalim, MS Bootharaju, Q Tang, S Del Gobbo, RG AbdulHalim, ...
Journal of the American Chemical Society 137 (37), 11970-11975, 2015
Stabilization and Band-Gap Tuning of the 1T-MoS2 Monolayer by Covalent Functionalization
Q Tang, D Jiang
Chemistry of Materials 27 (10), 3743-3748, 2015
Innovation and discovery of graphene‐like materials via density‐functional theory computations
Q Tang, Z Zhou, Z Chen
Wiley Interdisciplinary Reviews: Computational Molecular Science 5 (5), 360-379, 2015
Isomerism in Au28(SR)20 Nanocluster and Stable Structures
Y Chen, C Liu, Q Tang, C Zeng, T Higaki, A Das, D Jiang, NL Rosi, R Jin
Journal of the American Chemical Society 138 (5), 1482-1485, 2016
A molecule-like PtAu 24 (SC 6 H 13) 18 nanocluster as an electrocatalyst for hydrogen production
K Kwak, W Choi, Q Tang, M Kim, Y Lee, D Jiang, D Lee
Nature communications 8 (1), 1-8, 2017
Au19 Nanocluster Featuring a V-Shaped Alkynyl–Gold Motif
XK Wan, Q Tang, SF Yuan, D Jiang, QM Wang
Journal of the American Chemical Society 137 (2), 652-655, 2015
Small molecules make big differences: molecular doping effects on electronic and optical properties of phosphorene
Y Jing, Q Tang, P He, Z Zhou, P Shen
Nanotechnology 26 (9), 095201, 2015
Lattice-Hydride Mechanism in Electrocatalytic CO2 Reduction by Structurally Precise Copper-Hydride Nanoclusters
Q Tang, Y Lee, DY Li, W Choi, CW Liu, D Lee, D Jiang
Journal of the American Chemical Society 139 (28), 9728-9736, 2017
Interconversion between Superatomic 6-Electron and 8-Electron Configurations of M@Au24(SR)18 Clusters (M = Pd, Pt)
K Kwak, Q Tang, M Kim, D Jiang, D Lee
Journal of the American Chemical Society 137 (33), 10833-10840, 2015
Tunable band structures of heterostructured bilayers with transition-metal dichalcogenide and MXene monolayer
Z Ma, Z Hu, X Zhao, Q Tang, D Wu, Z Zhou, L Zhang
The Journal of Physical Chemistry C 118 (10), 5593-5599, 2014
Insights into interfaces, stability, electronic properties, and catalytic activities of atomically precise metal nanoclusters from first principles
Q Tang, G Hu, V Fung, D Jiang
Accounts of chemical research, 2018
Molecular charge transfer: a simple and effective route to engineer the band structures of BN nanosheets and nanoribbons
Q Tang, Z Zhou, Z Chen
The Journal of Physical Chemistry C 115 (38), 18531-18537, 2011
Computational studies on structural and electronic properties of functionalized MXene monolayers and nanotubes
X Zhang, Z Ma, X Zhao, Q Tang, Z Zhou
Journal of Materials Chemistry A 3 (9), 4960-4966, 2015
Superatomic orbitals under spin–orbit coupling
D Jiang, M Kühn, Q Tang, F Weigend
The journal of physical chemistry letters 5 (19), 3286-3289, 2014
Alkynyl‐Protected Au23 Nanocluster: A 12‐Electron System
XK Wan, SF Yuan, Q Tang, D Jiang, QM Wang
Angewandte Chemie International Edition 54 (20), 5977-5980, 2015
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