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Low Noble Metal Content Catalysts for Hydrogen Fuel Technology
Emma Westsson
ChemE/Advanced Soft Matter
RST/Storage of Electrochemical Energy
ChemE/Chemical Engineering
Research output
:
Thesis
›
Dissertation (TU Delft)
141
Downloads (Pure)
Overview
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Dive into the research topics of 'Low Noble Metal Content Catalysts for Hydrogen Fuel Technology'. Together they form a unique fingerprint.
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Engineering
Metal Content
100%
Hydrogen Fuel
100%
Catalyst
100%
Fuel Technology
100%
Fuel Cell
100%
Energy Engineering
100%
Water
66%
Renewable Energy
66%
Power Plant
33%
Sustainable Energy
33%
Technical Challenge
33%
Energy Carrier
33%
Large Portion
33%
By-Product
33%
Energy Conversion
33%
Energy Demand
33%
Future Energy
33%
Storage
33%
Technological Advancement
33%
Low Price
33%
Fields
33%
Energy Production
33%
Combustion
33%
Fossil Fuel
33%
Chemical Energy
33%
Anodes and Cathode
33%
Climate Change Effect
33%
Greenhouse Gas
33%
Electrolyser
33%
INIS
hydrogen fuels
100%
energy
100%
metals
100%
catalysts
100%
emission
42%
electricity
42%
electrochemistry
42%
hydrogen
42%
increasing
28%
fuel cells
28%
carbon dioxide
28%
water
28%
renewable energy sources
28%
production
14%
fossil fuels
14%
oxygen
14%
fossils
14%
carriers
14%
distribution
14%
demand
14%
populations
14%
prices
14%
economy
14%
combustion
14%
speed
14%
platinum
14%
hydrogen fuel cells
14%
storage
14%
greenhouse gases
14%
peaks
14%
molecules
14%
seasons
14%
climatic change
14%
weather
14%
devices
14%
anodes
14%
wind
14%
buffers
14%
cathodes
14%
by-products
14%
energy conversion
14%
catalysis
14%
energy demand
14%
energy consumption
14%
power plants
14%
Material Science
Fuel
100%
Hydrogen Fuels
100%
Catalyst
100%
Metal
100%
Water
66%
Carbon Dioxide
66%
Gas Emission
33%
Anode
33%
Cathode
33%
Electrochemical Device
33%
Greenhouse Gas
33%
Fossil Fuel
33%
Catalysis
33%
Byproducts
33%
Platinum
33%
Keyphrases
Metal Content
100%
Energy Conversion Technologies
50%
Cathode Reaction
50%
Combustion By-products
50%
Anode Reaction
50%
Non-noble Metal Catalyst
50%
Chemical Engineering
Precious Metal
100%
Hydrogen
100%
Carbon Dioxide
40%
Water
40%
Platinum
20%
Combustion
20%
Oxygen
20%