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Bifunctional Strategy Coupling Y
2
O
3
-Catalyzed Alkanal Decomposition with Methanol-to-Olefins Catalysis for Enhanced Lifetime
Andrew Hwang,
Aditya Bhan
Chemical Engineering and Materials Science
Research output
:
Contribution to journal
›
Article
›
peer-review
56
Scopus citations
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Dive into the research topics of 'Bifunctional Strategy Coupling Y
2
O
3
-Catalyzed Alkanal Decomposition with Methanol-to-Olefins Catalysis for Enhanced Lifetime'. Together they form a unique fingerprint.
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Keyphrases
Formaldehyde
100%
Bifunctional
100%
Yttrium Oxide
100%
Alkanal
100%
Methanol to Olefins
100%
Enhancing Lifetime
100%
Zeolite
66%
Catalyst Lifetime
66%
Zeotypes
66%
Proximity Effect
33%
High Selectivity
33%
Mechanistic Insight
33%
Light Olefins
33%
Reaction-transport
33%
Zeolitic
33%
Catalytic Decomposition
33%
Chain Carrier
33%
H-site
33%
Bifunctionality
33%
Selective Decomposition
33%
Rare Earth Metal Oxides
33%
4-fold
33%
Lifetime Increase
33%
Chemistry
Alkene
100%
Methanol
100%
Alkanal
100%
Zeotypes
50%
Metal Oxide
25%
Catalytic Decomposition
25%
Proximity Effect
25%
Chain Carrier
25%
Rare Earth Element
25%
Chemical Engineering
Olefin
100%
Methanol
100%
Rare Earth Element
25%
Rare Earth Metal
25%