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Large Bandgap Semiconductors for Solar Water Splitting
Mauro Malizia
Department of Physics
Surface Physics and Catalysis
Research output
:
Book/Report
›
Ph.D. thesis
Overview
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Projects
(1)
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Dive into the research topics of 'Large Bandgap Semiconductors for Solar Water Splitting'. Together they form a unique fingerprint.
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Engineering
Photocathode
100%
Water Splitting
100%
Photovoltage
66%
Solar Energy
33%
Heterojunctions
33%
Greenhouse Gas
16%
Reactant
16%
Quantitative Measurement
16%
Hydrogen Generation
16%
Photocurrent
16%
Produce Hydrogen
16%
Etching Process
16%
Back Side
16%
Periodic Time
16%
Primary Energy Source
16%
Hydrogen Efficiency
16%
Incident Photon
16%
Fossil Fuel
16%
Hydrogen Production
16%
Optical Path Length
16%
Gas Chromatography
16%
Design Tandem
16%
Global Warming
16%
Electrochemical Etching
16%
Material Science
Water Splitting
100%
Gallium
100%
Heterojunction
40%
Photoelectrochemical Water Splitting
40%
Density
40%
Oxygen Evolution
20%
Gas Chromatography
20%
Hydrogen Evolution
20%
Vanadate
20%
Electrochemical Etching
20%
Titanium Dioxide
20%
Corrosion
20%
Metal Oxide
20%
Bismuth
20%
Electrochemical Cell
20%
Fossil Fuel
20%
Feedstock
20%
Greenhouse Gas
20%
Keyphrases
Band Gap Semiconductor
100%
Back-illuminated
40%
BiVO4 Photoanode
20%
Bismuth Vanadate
20%
Eco-friendly Technology
20%
Mechanical Stacking
20%
Chemical Engineering
Gallium Phosphide
100%
Titanium Dioxide
20%
Hydrogen Production
20%
Gas Chromatography
20%