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Formulating liquid ethers for microtubular solid oxide fuel cells
Kevin Kendall, Matthew Slinn, Jayne Preece
Chemical Engineering
Research output
:
Contribution to journal
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Article
25
Citations (Scopus)
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Dive into the research topics of 'Formulating liquid ethers for microtubular solid oxide fuel cells'. Together they form a unique fingerprint.
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Physics & Astronomy
solid oxide fuel cells
99%
ethers
94%
anodes
72%
liquids
45%
carbon
35%
molecules
34%
internal combustion engines
29%
methane
29%
liquid fuels
29%
nickel
25%
methyl alcohol
21%
damage
15%
formates
14%
kerosene
14%
diesel engines
13%
octanes
13%
degeneration
13%
cermets
13%
carbon monoxide
12%
yttria-stabilized zirconia
11%
entry
11%
upstream
10%
hydrocarbons
10%
proposals
9%
acids
9%
tendencies
9%
injection
7%
formulations
7%
electrodes
6%
hydrogen
6%
air
6%
water
6%
cells
5%
Engineering & Materials Science
Ethers
100%
Solid oxide fuel cells (SOFC)
92%
Anodes
82%
Molecules
62%
Liquids
56%
Carbon
40%
Methane
29%
Nickel
29%
Liquid fuels
24%
Methanol
21%
Internal combustion engines
20%
Yttria stabilized zirconia
14%
Kerosene
12%
Cermets
12%
Reforming reactions
11%
Carbon monoxide
11%
Acids
9%
Hydrocarbons
9%
Diesel engines
9%
Hydrogen
8%
Electrodes
8%
Air
5%
Water
5%
Testing
5%
Chemistry
Fuel
70%
Anode
62%
Ether
58%
Liquid
46%
Internal Combustion Engine
32%
Methane
25%
Molecule
22%
Carbon Atom
15%
Methyl Formate
14%
Cermet
13%
Methanol
12%
Kerosene
12%
Octane
11%
Carbon Monoxide
9%
Drop
9%
Hydrocarbon
7%
Hydrogen
5%
Behavior as Electrode
5%
Acid
3%