Xiaolin Zheng
Xiaolin Zheng
Professor of Mechanical Engineering, and Energy Science & Engineering, Stanford University
Verified email at - Homepage
Cited by
Cited by
Coaxial silicon nanowires as solar cells and nanoelectronic power sources
B Tian, X Zheng, TJ Kempa, Y Fang, N Yu, G Yu, J Huang, CM Lieber
Nature 449 (7164), 885-889, 2007
Activating and optimizing MoS2 basal planes for hydrogen evolution through the formation of strained sulphur vacancies
H Li, C Tsai, AL Koh, L Cai, AW Contryman, AH Fragapane, J Zhao, ...
Nature materials 15 (1), 48-53, 2016
Branched TiO2 nanorods for photoelectrochemical hydrogen production
IS Cho, Z Chen, AJ Forman, DR Kim, PM Rao, TF Jaramillo, X Zheng
Nano letters 11 (11), 4978-4984, 2011
Simultaneously efficient light absorption and charge separation in WO3/BiVO4 core/shell nanowire photoanode for photoelectrochemical water oxidation
PM Rao, L Cai, C Liu, IS Cho, CH Lee, JM Weisse, P Yang, X Zheng
Nano letters 14 (2), 1099-1105, 2014
Electrochemical generation of sulfur vacancies in the basal plane of MoS2 for hydrogen evolution.
C Tsai, H Li, S Park, J Park, HS Han, JK NÝrskov, X Zheng, ...
Nature communications 8, 15113, 2017
Single and tandem axial pin nanowire photovoltaic devices
TJ Kempa, B Tian, DR Kim, J Hu, X Zheng, CM Lieber
Nano letters 8 (10), 3456-3460, 2008
Enhancing electrocatalytic water splitting by strain engineering
B You, MT Tang, C Tsai, F Abild‐Pedersen, X Zheng, H Li
Advanced Materials 31 (17), 1807001, 2019
Optoelectronic crystal of artificial atoms in strain-textured molybdenum disulphide
H Li, AW Contryman, X Qian, SM Ardakani, Y Gong, X Wang, JM Weisse, ...
Nature communications 6 (1), 7381, 2015
Understanding activity trends in electrochemical water oxidation to form hydrogen peroxide
X Shi, S Siahrostami, GL Li, Y Zhang, P Chakthranont, F Studt, ...
Nature communications 8, 701, 2017
Boosting the solar water oxidation performance of a BiVO4 photoanode by crystallographic orientation control
HS Han, S Shin, DH Kim, IJ Park, JS Kim, PS Huang, JK Lee, IS Cho, ...
Energy & Environmental Science 11 (5), 1299-1306, 2018
Experimental determination of counterflow ignition temperatures and laminar flame speeds of C 2–C 3 hydrocarbons at atmospheric and elevated pressures
G Jomaas, XL Zheng, DL Zhu, CK Law
Proceedings of the Combustion Institute 30 (1), 193-200, 2005
Codoping titanium dioxide nanowires with tungsten and carbon for enhanced photoelectrochemical performance
IS Cho, CH Lee, Y Feng, M Logar, PM Rao, L Cai, DR Kim, R Sinclair, ...
Nature communications 4 (1), 1723, 2013
Kinetic Study of Hydrogen Evolution Reaction over Strained MoS2 with Sulfur Vacancies Using Scanning Electrochemical Microscopy
H Li, M Du, MJ Mleczko, AL Koh, Y Nishi, E Pop, AJ Bard, X Zheng
Journal of the American Chemical Society 138 (15), 5123-5129, 2016
Experimental counterflow ignition temperatures and reaction mechanisms of 1, 3-butadiene
XL Zheng, TF Lu, CK Law
Proceedings of the Combustion Institute 31 (1), 367-375, 2007
Electrochemical synthesis of H2O2 by two-electron water oxidation reaction
X Shi, S Back, TM Gill, S Siahrostami, X Zheng
Chem 7 (1), 38-63, 2021
Rapid and controllable flame reduction of TiO2 nanowires for enhanced solar water-splitting
IS Cho, M Logar, CH Lee, L Cai, FB Prinz, X Zheng
Nano letters 14 (1), 24-31, 2013
Enhancing Catalytic CO Oxidation over Co3O4 Nanowires by Substituting Co2+ with Cu2+
M Zhou, L Cai, M Bajdich, M GarcŪa-Melchor, H Li, J He, J Wilcox, W Wu, ...
ACS Catalysis 5 (8), 4485-4491, 2015
ZnO as an Active and Selective Catalyst for Electrochemical Water Oxidation to Hydrogen Peroxide
SR Kelly, X Shi, S Back, L Vallez, SY Park, S Siahrostami, X Zheng, ...
Acs Catalysis 9 (5), 4593-4599, 2019
Morphology-controlled flame synthesis of single, branched, and flower-like α-MoO3 nanobelt arrays
L Cai, PM Rao, X Zheng
Nano letters 11 (2), 872-877, 2011
Enhancing Low‐Bias Performance of Hematite Photoanodes for Solar Water Splitting by Simultaneous Reduction of Bulk, Interface, and Surface Recombination Pathways
IS Cho, HS Han, M Logar, J Park, X Zheng
Advanced Energy Materials 6 (4), 1501840, 2016
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