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Wenchao Wang
Researcher at Shanghai Normal University
Publications - 30
Citations - 2090
Wenchao Wang is an academic researcher from Shanghai Normal University. The author has contributed to research in topics: Photocatalysis & Catalysis. The author has an hindex of 17, co-authored 25 publications receiving 1290 citations. Previous affiliations of Wenchao Wang include University of Hong Kong.
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Nanotube-confinement induced size-controllable g-C3N4 quantum dots modified single-crystalline TiO2 nanotube arrays for stable synergetic photoelectrocatalysis
TL;DR: In this paper, size-controllable g-C3N4 quantum dots (QDs) were in-situ synthesized and grafted onto single-crystalline TiO2 nanotube arrays (TiO2-NTAs) based on nanotubes-confinement effect.
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Steering Electron–Hole Migration Pathways Using Oxygen Vacancies in Tungsten Oxides to Enhance Their Photocatalytic Oxygen Evolution Performance
Zhen Wei,Wenchao Wang,Wenlu Li,Xueqin Bai,Jianfeng Zhao,Edmund C. M. Tse,David Lee Phillips,Yongfa Zhu +7 more
TL;DR: In this paper, a tungsten oxide catalyst with oxygen vacancies was designed and synthesized for photocatalytic oxygen evolution, which exhibited a higher oxygen evolution rate of 683 µmol·h −1 ·g −1 than that of pure WO 3 (159 µmol ·h − 1 ·g -1 ).
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Pt-Enhanced Mesoporous Ti3+/TiO2 with Rapid Bulk to Surface Electron Transfer for Photocatalytic Hydrogen Evolution.
TL;DR: The photocatalytic H2 evolution of Pt-Ti3+/TiO2 is significantly higher than that of the photoreduced Pt loaded on the original TiO2 and commercial P25, due to the various valence states of Pt (Ptn+, n = 0, 2, or 3), forming Pt-O bonds embedded in the framework of Ti O2 and ultrafine Pt metal nanoparticles on the surface of TiO 2.
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Edge-Enriched Ultrathin MoS2 Embedded Yolk-Shell TiO2 with Boosted Charge Transfer for Superior Photocatalytic H2 Evolution
Wenchao Wang,Wenchao Wang,Sai Zhu,Yingnan Cao,Ying Tao,Xin Li,Donglai Pan,David Lee Phillips,Dieqing Zhang,Ming Chen,Guisheng Li,Hexing Li +11 more
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C60-decorated CdS/TiO2 mesoporous architectures with enhanced photostability and photocatalytic activity for H2 evolution.
TL;DR: The as-formed C60 cluster protection layers in the CdS/TiO2 framework not only improve the light absorption capability, but also greatly accelerated the photogenerated electron transfer to C60 clusters for H2 evolution.