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Solar Water Splitting Using Semiconductor Photocatalyst Powders
Kazuhiro Takanabe
Physical Sciences and Engineering
Chemistry
Research output
:
Chapter in Book/Report/Conference proceeding
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Chapter
53
Scopus citations
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Keyphrases
Semiconductor Photocatalyst
100%
Photocatalysis
100%
Overall Water Splitting
100%
Solar Water Splitting
100%
Energy Generation
50%
Semiconductors
50%
Photobioreactor
50%
Overall Efficiency
50%
Direct Generation
50%
Energy Production
50%
Solar Energy
50%
Large-scale Production
50%
Solar Energy Conversion
50%
Solid State Physics
50%
Solar Spectrum
50%
Heterogeneous Photocatalyst
50%
Photocatalytic Materials
50%
Solar Fuels
50%
Multidisciplinary Approach
50%
Knowledge Accumulation
50%
Engineering
Photocatalysts
100%
Water Splitting
100%
Solar Energy
66%
Photocatalysis
66%
Overall Water Splitting
66%
Power Generation
33%
Energy Conversion
33%
Increasing Demand
33%
Energy Production
33%
Future Technology
33%
Scale Production
33%
State Physic
33%
Solar Spectra
33%
Material Science
Photocatalysts
100%
Water Splitting
100%
Powder
100%
Photocatalysis
66%
Solar Fuel
33%
Chemistry
Photocatalysis
100%
Electrochemistry
50%
Solar Energy Conversion
50%
Solar Energy
50%
Chemical Engineering
Photocatalysis
100%