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Stability and surface catalytic properties of fluorite-structured yttria-doped bismuth oxide under reducing environment
Y. Zeng,
Y. S. Lin
Research output
:
Contribution to journal
›
Article
›
peer-review
40
Scopus citations
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Dive into the research topics of 'Stability and surface catalytic properties of fluorite-structured yttria-doped bismuth oxide under reducing environment'. Together they form a unique fingerprint.
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Engineering & Materials Science
Fluorspar
100%
Yttrium oxide
90%
Bismuth
81%
Methane
56%
Oxides
52%
Oxygen
39%
Membranes
30%
Metal ions
17%
Phase structure
15%
Temperature
4%
Physics & Astronomy
bismuth oxides
82%
fluorite
73%
methane
55%
oxygen
29%
membranes
26%
reactors
18%
metal ions
13%
pellets
12%
destruction
11%
beds
11%
selectivity
11%
atmospheres
8%
Chemical Compounds
Catalyst Property
53%
Methane
48%
Environment
34%
Oxide
32%
Dioxygen
23%
Surface
19%
Fluorite
14%
Nonstoichiometric Compound
13%
Pellet
11%
Metal Ion
7%
Reduction
5%
Application
3%