Supercapacitive properties of carbazole-containing cobalt(ii) phthalocyanines/reduced graphene oxide composites

Keyphrases

• Phthalocyanine 100%
• Cobalt(II) 100%
• Reduced Graphene Oxide 100%
• Carbazole 100%
• Reduced Graphene Oxide Composite 100%
• Supercapacitive Properties 100%
• Ni Foam 66%
• Ni Foam Electrode 33%
• Field Emission Scanning Electron Microscopy (FE-SEM) 16%
• Tetra-substituted 16%
• Fourier Transform Infrared Spectroscopy (FT-IR) 16%
• Synergistic Effect 16%
• Electrochemical Techniques 16%
• Electrochemical Performance 16%
• Modified Electrode 16%
• High Performance 16%
• Metallophthalocyanine 16%
• Electropolymerized Film 16%
• Specific Capacitance 16%
• Macromolecules 16%
• Energy Storage Devices 16%
• Generation Power 16%
• High Specific Capacitance 16%
• Supercapacitor Application 16%
• High Activity 16%
• Optical Coherence Tomography Angiography (OCT-A) 16%
• Cobalt Phthalocyanine 16%
• Non-peripheral 16%
• Substituent Effect 16%
• Infrared Emission 16%
• Spectroscopic Approach 16%
• Carbazol 16%
• Simultaneous Polymerization 16%
• Substituent Position 16%
• One-step Electrodeposition 16%
• Electrochemical Supercapacitor 16%
• Charge-discharge Cycle 16%
• Alternative Agents 16%
• Peripheral Site 16%
• Spectroscopic Techniques 16%

Material Science

• Reduced Graphene Oxide 100%
• Cobalt 100%
• Composite Material 100%
• Capacitance 33%
• Film 16%
• Scanning Electron Microscopy 16%
• Graphene Oxide 16%
• Electrodeposition 16%
• Supercapacitors 16%
• Polymerization 16%
• Nanocomposite 16%

Chemical Engineering

• Graphene 100%
• Polymerization 14%
• Film 14%
• Electrodeposition 14%
• Lead Oxide 14%