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The effects of hydride chemistry, particle size, and void fraction on micro fuel cell performance
S. Eickhoff, C. Zhang,
T. Cui
Mechanical Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
5
Scopus citations
Overview
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Dive into the research topics of 'The effects of hydride chemistry, particle size, and void fraction on micro fuel cell performance'. Together they form a unique fingerprint.
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Physics & Astronomy
fuel cells
91%
hydrides
80%
voids
69%
chemistry
68%
reaction kinetics
60%
performance
35%
hydrolysis
30%
lithium aluminum hydrides
26%
hydrogen
16%
particle size distribution
14%
pellets
13%
water vapor
13%
flux density
10%
reactors
10%
evaluation
8%
configurations
7%
Engineering & Materials Science
Void fraction
100%
Hydrides
99%
Reaction rates
75%
Particle size
74%
Fuel cells
70%
Hydrolysis
32%
Hydrogen
21%
Particle size analysis
15%
Water vapor
14%
Lithium
14%
Aluminum
10%
Chemical Compounds
Hydride
67%
Porosity
46%
Hydrolysis
19%
Reaction Yield
19%
Aluminium Hydride
18%
Hydrogen
16%
Particle Size Distribution
15%
Fuel
13%
Energy
7%