Zhou, Xinghao

Combined from CaltechAUTHORS

• Yang, Fan and Zhou, Xinghao, et el. (2020) Evaluation of sputtered nickel oxide, cobalt oxide and nickel–cobalt oxide on n-type silicon photoanodes for solar-driven O₂(g) evolution from water; Journal of Materials Chemistry A; Vol. 8; No. 28; 13955-13963; 10.1039/d0ta03725g
• Ho, Alec and Zhou, Xinghao, et el. (2019) Decoupling H_2(g) and O_2(g) Production in Water Splitting by a Solar-Driven V^(3+/2)+(aq,H_2SO_4)|KOH(aq) Cell; ACS Energy Letters; Vol. 4; No. 4; 968-976; 10.1021/acsenergylett.9b00278
• Francis, Sonja A. and Velazquez, Jesus M., et el. (2018) Reduction of aqueous CO_2 to 1-Propanol at MoS_2 electrodes; Chemistry of Materials; Vol. 30; No. 15; 4902-4908; 10.1021/acs.chemmater.7b04428
• Zhou, Xinghao and Xiang, Chengxiang (2018) Comparative Analysis of Solar-to-Fuel Conversion Efficiency: A Direct, One-Step Electrochemical CO_2 Reduction Reactor versus a Two-Step, Cascade Electrochemical CO_2 Reduction Reactor; ACS Energy Letters; Vol. 3; No. 8; 1892-1897; 10.1021/acsenergylett.8b01077
• Zhou, Xinghao and Liu, Rui, et el. (2017) Solar-Driven Reduction of 1 atm CO_2 to Formate at 10% Energy-Conversion Efficiency by Use of a TiO_2-Protected III-V Tandem Photoanode in Conjunction with a Bipolar Membrane and a Pd/C Cathode Electrocatalyst; ECS Transactions; Vol. 77; No. 4; 31-41; 10.1149/07704.0031ecst
• Sun, Ke and Moreno-Hernandez, Ivan A., et el. (2017) A comparison of the chemical, optical and electrocatalytic properties of water-oxidation catalysts for use in integrated solar-fuel generators; Energy and Environmental Science; Vol. 10; No. 4; 987-1002; 10.1039/C6EE03563A
• Zhou, Xinghao and Liu, Rui, et el. (2016) Solar-Driven Reduction of 1 atm of CO_2 to Formate at 10% Energy-Conversion Efficiency by Use of a TiO_2-Protected III–V Tandem Photoanode in Conjunction with a Bipolar Membrane and a Pd/C Cathode; ACS Energy Letters; Vol. 1; No. 4; 764-770; 10.1021/acsenergylett.6b00317
• Zhou, Xinghao and Liu, Rui, et el. (2016) 570 mV photovoltage, stabilized n-Si/CoO_x heterojunction photoanodes fabricated using atomic layer deposition; Energy and Environmental Science; Vol. 9; No. 3; 892-897; 10.1039/C5EE03655K
• Lichterman, Michael F. and Sun, Ke, et el. (2016) Protection of inorganic semiconductors for sustained, efficient photoelectrochemical water oxidation; Catalysis Today; Vol. 262; 11-23; 10.1016/j.cattod.2015.08.017
• Velazquez, Jesus M. and John, Jimmy, et el. (2016) A scanning probe investigation of the role of surface motifs in the behavior of p-WSe_2 photocathodes; Energy and Environmental Science; Vol. 9; No. 1; 164-175; 10.1039/C5EE02530C
• Zhou, Xinghao and Liu, Rui, et el. (2015) Interface engineering of the photoelectrochemical performance of Ni-oxide-coated n-Si photoanodes by atomic-layer deposition of ultrathin films of cobalt oxide; Energy and Environmental Science; Vol. 8; No. 9; 2644-2649; 10.1039/c5ee01687h
• Sun, Ke and Saadi, Fadl H., et el. (2015) Enabling small band-gap semiconductors for solar water oxidation using multifunctional NiOx coating
• Sun, Ke and Saadi, Fadl H., et el. (2015) Stable solar-driven oxidation of water by semiconducting photoanodes protected by transparent catalytic nickel oxide films; Proceedings of the National Academy of Sciences of the United States of America; Vol. 112; No. 12; 3612-3617; PMCID PMC4378389; 10.1073/pnas.1423034112