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Deactivation mechanisms in methanol-to-hydrocarbons chemistry
Praveen Bollini,
Aditya Bhan
Chemical Engineering and Materials Science
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Physics & Astronomy
deactivation
100%
methyl alcohol
93%
hydrocarbons
86%
chemistry
78%
formaldehyde
67%
catalysts
51%
scavenging
24%
coke
23%
dehydrogenation
23%
polycyclic aromatic hydrocarbons
22%
zeolites
20%
life (durability)
12%
Engineering & Materials Science
Methanol
93%
Formaldehyde
85%
Hydrocarbons
81%
Catalyst deactivation
65%
Polycyclic aromatic hydrocarbons
32%
Dehydrogenation
32%
Scavenging
31%
Zeolites
27%
Coke
25%
Catalysts
19%
Chemical Compounds
Formaldehyde
78%
Hydrocarbon
65%
Methanol
55%
Chemistry
53%
Dehydrogenation
28%
Arene
24%
Zeolite
23%
Catalyst
12%