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Photocatalytic reduction of CO
2
using molybdenum-doped titanate nanotubes in a MEA solution
Hung Yu Wu, Nhat Huy Nguyen, Hsun-Ling Bai
*
,
Sue-Min Chang
, Jeffrey C.S. Wu
*
此作品的通信作者
環境工程研究所
研究成果
:
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›
同行評審
18
引文 斯高帕斯(Scopus)
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2
using molybdenum-doped titanate nanotubes in a MEA solution」主題。共同形成了獨特的指紋。
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Keyphrases
Mo-doped
100%
Photocatalytic CO2 Reduction
100%
Titanate Nanotubes
100%
Molybdenum Doped
100%
MEA Solution
100%
Oxygen Vacancy
40%
Calcination Temperature
40%
Organic Compounds
20%
Irradiation
20%
Photocatalyst
20%
Oxygen Vacancy Sites
20%
Quantum Efficiency
20%
Reaction Mechanism
20%
Anatase
20%
Molybdenum
20%
Corruption
20%
Reduction Capacity
20%
Photoreduction
20%
Energy Sources
20%
Photocatalytic Reduction
20%
Structure Transformation
20%
Calcination
20%
Triethanolamine
20%
Mo5+
20%
Reduction Efficiency
20%
CO2 Reduction Reaction (CO2RR)
20%
Yield Rate
20%
High CO2
20%
Chemical Engineering
Carbon Dioxide
100%
Nanotube
100%
Methane
66%
Calcination
66%
Titanium Dioxide
33%
Carbon Dioxide Reduction
33%
Photocatalytic CO2 Reduction
33%
Ethanolamine
33%
Engineering
Oxygen Vacancy
100%
Titanate Nanotube
100%
Methane
66%
Mols
33%
Photocatalysts
33%
Quantum Efficiency
33%
Energy Source
33%
Photocatalytic CO2 Reduction
33%
Carbon Dioxide Reduction
33%
Material Science
Carbon Dioxide
100%
Molybdenum
100%
Titanate Nanotube
100%
Oxygen Vacancy
60%
Calcination
40%
Photocatalysts
20%