Defect-Enriched N,O-Codoped Nanodiamond/Carbon Nanotube Catalysts for Styrene Production via Dehydrogenation of Ethylbenzene

Keyphrases

• Carbon Nanotubes 100%
• Nanodiamond 100%
• Styrene Production 100%
• Ethylbenzene Dehydrogenation 100%
• Styrene 50%
• Steady State 25%
• Carbonyl Group 25%
• Pyrolysis Process 25%
• Hybrid Catalyst 25%
• Hexamethylenetetramine 25%
• HNO3 Treatment 25%
• Wet Chemical Method 12%
• Steam 12%
• High Efficiency 12%
• Agglomeration 12%
• Dehydrogenation Reaction 12%
• Catalytic Activity 12%
• Dual Role 12%
• Nitrogen Doping 12%
• Nitrogen Precursor 12%
• Energy Efficient 12%
• Formation Rate 12%
• Excellent Catalytic Performance 12%
• Bonding Force 12%
• Catalytic Performance 12%
• Treatment Process 12%
• Structural Defects 12%
• Dispersant 12%
• Unique Structure 12%
• Surface Bonding 12%
• Carbon Catalyst 12%
• High Catalytic Activity 12%
• Nucleophilicity 12%
• Metal-free Catalyst 12%
• Carbon Nanotube Hybrids 12%
• Oxidized Carbon Nanotubes 12%
• Catalytic Active Sites 12%
• Wet-chemical Approach 12%
• Oxidant-free 12%
• Direct Dehydrogenation 12%

Chemical Engineering

• Carbon Nanotube 100%
• Dehydrogenation 100%
• Styrene 100%
• Ethylbenzene 100%
• Nanodiamond 100%
• Pyrolysis 25%

Material Science

• Carbon Nanotube 100%
• Dehydrogenation 100%
• Catalyst Activity 33%
• Oxidant 33%