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CO
2
reduction under periodic illumination of ZnS
Ruixin Zhou
,
Marcelo I. Guzman
Chemistry
Center for Appalachian Research in Environmental Sciences (UK-CARES)
Energy Research Priority Area
Research output
:
Contribution to journal
›
Article
›
peer-review
142
Scopus citations
Overview
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2
reduction under periodic illumination of ZnS'. Together they form a unique fingerprint.
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Chemistry
Carbon Dioxide Reduction
100%
Illumination
100%
Carbon Dioxide
100%
Photochemical Reaction
60%
Conduction Band
40%
Formate
40%
Mass Spectrometry
20%
Surface Chemistry
20%
Band Gap
20%
Quantum Yield
20%
Valence Band
20%
Surface Potential
20%
Nanocrystalline Material
20%
Engineering
Carbon Dioxide Reduction
100%
Conduction Band
100%
Millisecond
50%
Quantum Yield
50%
Surface Potential
50%
Valence Band
50%
Band Gap
50%
Mass Spectrum
50%
Mass Spectrometry
50%
Physics
Carbon Dioxide
100%
CO2 Reduction
100%
Photochemical Reaction
60%
Conduction Band
40%
Energy Gaps (Solid State)
20%
Mass Spectroscopy
20%
Electron Pumping
20%
Chemical Engineering
Carbon Dioxide
100%
Carbon Dioxide Reduction
100%
Photochemical Reaction
60%
Mass Spectrometry
20%
Material Science
Carbon Dioxide
100%
Surface (Surface Science)
66%
Nanocrystallites
16%