Miao Zhong
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Scalable water splitting on particulate photocatalyst sheets with a solar-to-hydrogen energy conversion efficiency exceeding 1%
Q Wang, T Hisatomi, Q Jia, H Tokudome, M Zhong, C Wang, Z Pan, ...
Nature materials 15 (6), 611-615, 2016
Accelerated discovery of CO2 electrocatalysts using active machine learning
M Zhong, K Tran, Y Min, C Wang, Z Wang, CT Dinh, P De Luna, Z Yu, ...
Nature 581 (7807), 178-183, 2020
Steering post-C–C coupling selectivity enables high efficiency electroreduction of carbon dioxide to multi-carbon alcohols
TT Zhuang, ZQ Liang, A Seifitokaldani, Y Li, P De Luna, T Burdyny, F Che, ...
Nature Catalysis 1 (6), 421-428, 2018
Surface Modification of CoOx Loaded BiVO4 Photoanodes with Ultrathin p-Type NiO Layers for Improved Solar Water Oxidation
M Zhong, T Hisatomi, Y Kuang, J Zhao, M Liu, A Iwase, Q Jia, ...
Journal of the American Chemical Society 137 (15), 5053-5060, 2015
Efficient Assembly of Bridged β‐Ga2O3 Nanowires for Solar‐Blind Photodetection
Y Li, T Tokizono, M Liao, M Zhong, Y Koide, I Yamada, JJ Delaunay
Advanced Functional Materials 20 (22), 3972-3978, 2010
Efficient electrocatalytic conversion of carbon monoxide to propanol using fragmented copper
Y Pang, J Li, Z Wang, CS Tan, PL Hsieh, TT Zhuang, ZQ Liang, C Zou, ...
Nature Catalysis 2 (3), 251-258, 2019
Enhancement of Solar Hydrogen Evolution from Water by Surface Modification with CdS and TiO2 on Porous CuInS2 Photocathodes Prepared by an …
J Zhao, T Minegishi, L Zhang, M Zhong, Gunawan, M Nakabayashi, G Ma, ...
Angewandte Chemie International Edition 53 (44), 11808-11812, 2014
Stable, active CO2 reduction to formate via redox-modulated stabilization of active sites
L Li, A Ozden, S Guo, FP Garcı́a de Arquer, C Wang, M Zhang, J Zhang, ...
Nature communications 12 (1), 5223, 2021
Highly Active GaN‐Stabilized Ta3N5 Thin‐Film Photoanode for Solar Water Oxidation
M Zhong, T Hisatomi, Y Sasaki, S Suzuki, K Teshima, M Nakabayashi, ...
Angewandte Chemie 129 (17), 4817-4821, 2017
Scalable Low-Band-Gap Sb2Se3 Thin-Film Photocathodes for Efficient Visible–Near-Infrared Solar Hydrogen Evolution
L Zhang, Y Li, C Li, Q Chen, Z Zhen, X Jiang, M Zhong, F Zhang, H Zhu
ACS nano 11 (12), 12753-12763, 2017
Quantum-dot-derived catalysts for CO2 reduction reaction
M Liu, M Liu, X Wang, SM Kozlov, Z Cao, P De Luna, H Li, X Qiu, K Liu, ...
Joule 3 (7), 1703-1718, 2019
A conductive ZnO–ZnGaON nanowire-array-on-a-film photoanode for stable and efficient sunlight water splitting
M Zhong, Y Ma, P Oleynikov, K Domen, JJ Delaunay
Energy & Environmental Science 7 (5), 1693-1699, 2014
Hybrid solar-to-methane conversion system with a Faradaic efficiency of up to 96%
Q Fu, S Xiao, Z Li, Y Li, H Kobayashi, J Li, Y Yang, Q Liao, X Zhu, X He, ...
Nano Energy 53, 232-239, 2018
Fabrication of hierarchical ZnO architectures and their superhydrophobic surfaces with strong adhesive force
Y Li, M Zheng, L Ma, M Zhong, W Shen
Inorganic chemistry 47 (8), 3140-3143, 2008
ZnO–ZnGa 2 O 4 core–shell nanowire array for stable photoelectrochemical water splitting
M Zhong, Y Li, I Yamada, JJ Delaunay
Nanoscale 4 (5), 1509-1514, 2012
Synthesis of Nanostructured BaTaO2N Thin Films as Photoanodes for Solar Water Splitting
C Wang, T Hisatomi, T Minegishi, Q Wang, M Zhong, M Katayama, ...
The Journal of Physical Chemistry C 120 (29), 15758-15764, 2016
Accelerating electrochemical CO2 reduction to multi-carbon products via asymmetric intermediate binding at confined nanointerfaces
J Zhang, C Guo, S Fang, X Zhao, L Li, H Jiang, Z Liu, Z Fan, W Xu, J Xiao, ...
Nature Communications 14 (1), 1298, 2023
Synergized Cu/Pb Core/Shell Electrocatalyst for High-Efficiency CO2 Reduction to C2+ Liquids
P Wang, H Yang, Y Xu, X Huang, J Wang, M Zhong, T Cheng, Q Shao
ACS nano 15 (1), 1039-1047, 2020
Oxygen-deficient WO 3− x@ TiO 2− x core–shell nanosheets for efficient photoelectrochemical oxidation of neutral water solutions
K Yuan, Q Cao, HL Lu, M Zhong, X Zheng, HY Chen, T Wang, ...
Journal of materials chemistry A 5 (28), 14697-14706, 2017
Overall water splitting by photoelectrochemical cells consisting of (ZnSe) 0.85 (CuIn 0.7 Ga 0.3 Se 2) 0.15 photocathodes and BiVO 4 photoanodes
T Higashi, H Kaneko, T Minegishi, H Kobayashi, M Zhong, Y Kuang, ...
Chemical Communications 53 (85), 11674-11677, 2017
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