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Vapor phase aldol condensation of acetaldehyde on metal oxide catalysts
Weijie Ji
*
, Yi Chen,
Harold H. Kung
*
Corresponding author for this work
Chemical and Biological Engineering
Research output
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Article
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peer-review
44
Scopus citations
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Keyphrases
Silica
100%
Zirconium Dioxide
100%
Vapor Phase
100%
Metal Oxide Catalyst
100%
Acetaldehyde
100%
Aldol Condensation
100%
Silica Support
75%
Oxides
50%
Alkali Metals
50%
Metal-containing
50%
MoOx
50%
Molybdenum Trioxide
50%
Deactivation
25%
Reduced State
25%
Acidic Sites
25%
Excellent Selectivity
25%
Low Activity
25%
Supported Tungsten Oxide
25%
Crotonaldehyde
25%
Low Selectivity
25%
Poor Stability
25%
Supported Molybdenum Oxides
25%
Co-feeding
25%
Solid Base Catalyst
25%
Crotyl Alcohol
25%
Chemistry
Zirconia
100%
Aldol Condensation
100%
Metal Oxide
100%
Silicon Dioxide
75%
Sulfur Dioxide
75%
stability
50%
Alkali Metal
50%
Base Catalyst
25%
Tungsten Oxide
25%
Molybdenum Oxide
25%
Crotyl Alcohol
25%
Hydrogen
25%
Crotonaldehyde
25%
Biochemistry, Genetics and Molecular Biology
Aldol Reaction
100%
Sulfur Dioxide
75%
Crotonaldehyde
25%