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Oxidative coupling of methane on improved bismuth oxide membrane reactors
Y. Zeng,
Y. S. Lin
Research output
:
Contribution to journal
›
Article
›
peer-review
43
Scopus citations
Overview
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Dive into the research topics of 'Oxidative coupling of methane on improved bismuth oxide membrane reactors'. Together they form a unique fingerprint.
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Medicine & Life Sciences
Oxidative Coupling
100%
bismuth oxide
97%
Methane
73%
Membranes
31%
Samarium
17%
Oxygen
17%
yttria
15%
Partial Pressure
5%
Permeability
4%
Electrons
3%
Temperature
3%
Engineering & Materials Science
Bismuth
70%
Methane
49%
Oxides
45%
Membranes
44%
Oxygen
19%
Fluorspar
15%
Samarium
15%
Yttrium oxide
14%
Permeation
11%
Surface reactions
6%
Chemical stability
6%
Partial pressure
5%
Doping (additives)
5%
Electrons
4%
Fluxes
3%
Temperature
1%
Earth & Environmental Sciences
bismuth
66%
methane
40%
oxide
39%
reactor
36%
membrane
36%
oxygen
15%
samarium
14%
fluorite
11%
partial pressure
5%
surface area
3%
electron
3%
permeability
3%
chemical
2%
temperature
1%
rate
1%
Chemical Compounds
Methane
41%
Oxide
28%
Dioxygen
25%
Reaction Yield
16%
Fluorite
15%
Hole (Electron)
15%
Surface Reaction
13%
Partial Pressure
12%
Chemical Stability
12%
Catalyst Property
11%
Permeability
10%
Surface Area
8%
Volume
7%
Surface
4%