T
Tuo Wang
Researcher at Tianjin University
Publications - 134
Citations - 11890
Tuo Wang is an academic researcher from Tianjin University. The author has contributed to research in topics: Catalysis & Chemistry. The author has an hindex of 50, co-authored 109 publications receiving 8465 citations. Previous affiliations of Tuo Wang include Chinese Ministry of Education.
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CO2 photo-reduction: insights into CO2 activation and reaction on surfaces of photocatalysts
TL;DR: In this article, a review describes recent advances in the fundamental understanding of CO2 photoreduction on the surface of heterogeneous catalysts and particularly provides an overview of enhancing the adsorption/activation of CO 2 molecules.
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Enhanced Surface Reaction Kinetics and Charge Separation of p-n Heterojunction Co3O4/BiVO4 Photoanodes.
TL;DR: This paper describes the synergetic enhancement of surface reaction kinetics and bulk charge separation by introducing discrete nanoisland p-type Co3O4 cocatalysts onto n-type BiVO4, forming a p-n Co3 O4/BiVO4 heterojunction with an internal electric field to facilitate charge transport.
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Sub-10 nm rutile titanium dioxide nanoparticles for efficient visible-light-driven photocatalytic hydrogen production
TL;DR: The design of sub-10 nm rutile titanium dioxide nanoparticles, with an increased amount of surface/sub-surface defects to overcome the negative effects from bulk defects to enhance, rather than initiate, the visible-light-driven water splitting.
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Tungsten Oxide Single Crystal Nanosheets for Enhanced Multichannel Solar Light Harvesting
TL;DR: The combination of different strategies, i.e., 2D-structure construction, the introduction of surface oxygen vacancies, and the creation of localized surface plasmon resonance can promote the light-harvesting performance of tungsten oxide through accumulative and synergistic effects.
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Mechanistic Understanding of the Plasmonic Enhancement for Solar Water Splitting.
Peng Zhang,Tuo Wang,Jinlong Gong +2 more
TL;DR: This review describes the relevant mechanisms from three aspects, including: i) light absorption and scattering; ii) hot-electron injection and iii) plasmon-induced resonance energy transfer (PIRET). Perspectives are also proposed to trigger further innovative thinking on plAsmonic-enhanced solar water splitting.