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Band-Edge Energetics Control for Solar Hydrogen Production
Ibadillah Digdaya
ChemE/Materials for Energy Conversion and Storage
Research output
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Thesis
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Dissertation (TU Delft)
235
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Dive into the research topics of 'Band-Edge Energetics Control for Solar Hydrogen Production'. Together they form a unique fingerprint.
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Engineering
Energetics
100%
Band Edge
100%
Hydrogen Production
100%
Steam Reforming
50%
Energy Carrier
50%
Solar Energy
50%
Synthetic Fuel
50%
By-Product
50%
Water
50%
Energy Density
50%
High Energy
50%
Storage
50%
Renewable Energy
50%
Electrocatalyst
50%
Fuel Cell
50%
Fossil Fuel
50%
Energy Security
50%
Charge Carrier
50%
Renewables
50%
Natural Gas
50%
Climate Change
50%
Water Splitting
50%
Term Energy
50%
Reduction
50%
Transfer Process
50%
Semiconductor
50%
INIS
control
100%
hydrogen production
100%
hydrogen
100%
carbon dioxide
75%
resources
50%
water
50%
increasing
25%
electrons
25%
electricity
25%
fossil fuels
25%
oxygen
25%
global climate change
25%
fossils
25%
carbon
25%
conversion
25%
carriers
25%
energy
25%
energy security
25%
reduction
25%
oxidation
25%
carbon monoxide
25%
synthetic fuels
25%
semiconductor materials
25%
steam
25%
natural gas
25%
charge carriers
25%
solar energy
25%
storage
25%
capture
25%
holes
25%
fuel cells
25%
by-products
25%
renewable energy sources
25%
energy density
25%
charges
25%
electrocatalysts
25%
Keyphrases
Energetic Control
100%
Natural Gas Steam Reforming
100%
Industrial Method
100%
Process Use
100%
Global Transition
100%
Chemical Engineering
Hydrogen
100%
Hydrogen Production
100%
Water
50%
Carbon
50%
Carbon Dioxide
25%
Oxygen
25%