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Rates and reversibility of CO
2
hydrogenation on Cu-based catalysts
Ting C. Lin,
Aditya Bhan
Chemical Engineering and Materials Science
Research output
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peer-review
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2
hydrogenation on Cu-based catalysts'. Together they form a unique fingerprint.
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Physics & Astronomy
hydrogenation
87%
methyl alcohol
81%
catalysts
73%
synthesis
28%
water
27%
kinetics
23%
selectivity
22%
shift
19%
gases
16%
inlet pressure
11%
thermodynamics
10%
adsorbents
10%
titration
9%
catalysis
9%
sorption
8%
chlorine
8%
partial pressure
7%
reaction kinetics
7%
trends
5%
formalism
5%
formulations
5%
hydrogen
4%
probes
4%
Engineering & Materials Science
Hydrogenation
100%
Methanol
80%
Catalysts
67%
Water gas shift
43%
Aluminum oxide
22%
Thermodynamics
13%
Catalyst selectivity
11%
Titration
11%
Catalysis
10%
Chlorine
9%
Adsorbents
9%
Sorption
9%
Partial pressure
9%
Reaction kinetics
8%
Water
8%
Hydrogen
6%
Chemical Compounds
Water Gas Shift
61%
Hydrogenation
58%
Methanol
48%
Catalyst
33%
Thermodynamics
19%
Reaction Yield
19%
Water Gas Shift Reaction
18%
Partial Pressure
15%
Chlorine
13%
Titration
12%
Adsorbent
11%
Catalysis
10%
Probe
9%
Pressure
9%
Modification
8%
Hydrogen
8%