Keyphrases
Aromatic Hydrocarbons
100%
Catalytic Pyrolysis
100%
Hydrocarbon Formation
100%
Aluminum Oxide Catalyst
100%
Polycarbonate Wastes
100%
Feces
66%
Aluminum Oxide
66%
Solid Waste
33%
Catalytic Conversion
33%
Plastic Waste
33%
Metal Oxide
33%
Fuel Additive
33%
High Surface Area
33%
Mass Ratio
33%
Synthetic Catalysts
33%
Impregnation
33%
Active Species
33%
High Content
33%
Enhancement Factor
33%
High Pore Volume
33%
Value-added Chemicals
33%
Weak Acid Sites
33%
Polycarbonate Plastic
33%
Surface Well
33%
Benzene Formation
33%
Phenolic Product
33%
Feedstock Ratio
33%
Monocyclic Aromatic Hydrocarbons
33%
Direct Mixing Method
33%
Fold Increase
33%
Excellent Catalytic Performance
33%
Well-dispersion
33%
Engineering
Polycarbonate
100%
Aromatics
100%
Catalytic Pyrolysis
100%
Aluminum Oxide
100%
Coprecipitation
50%
Enzymatic Activity
25%
Experimental Result
25%
Fold Increase
25%
Mass Ratio
25%
High Surface Area
25%
Enhancement Factor
25%
Phenolics
25%
Chemistry
Arene
100%
Aluminum Oxide
100%
Catalytic Pyrolysis
100%
Polycarbonate
100%
Coprecipitation
50%
Metal Oxide
25%
Fuel Additive
25%
Surface Area
25%
Solid Waste
25%
Material Science
Polycarbonate
100%
Aluminum Oxide
100%
Al2O3
66%
Coprecipitation
66%
Feedstock
66%
Metal Oxide
33%
Pore Volume
33%
Catalyst Activity
33%
Fuel Additive
33%
Chemical Engineering
Aromatic Hydrocarbon
100%
Catalytic Pyrolysis
100%
Polycarbonate
100%
Coprecipitation
50%