One-step hydrothermal synthesis of Graphene decorated V₂O₅ nanobelts for enhanced electrochemical energy storage

Keyphrases

• One-step Hydrothermal Method 100%
• Electrochemical Energy Storage 100%
• Graphene Synthesis 100%
• V2O5 Nanobelts 100%
• Graphene 50%
• Specific Capacitance 25%
• Cyclic Voltammetry 12%
• Vanadium Pentoxide 12%
• Enhanced Conductivity 12%
• Spectroscopic Analysis 12%
• Graphene Oxide 12%
• Nanobelts 12%
• Reduced Graphene Oxide 12%
• High-resolution Electron Energy Loss Spectroscopy (HREELS) 12%
• Charge-discharge Test 12%
• Layered Crystal Structures 12%
• Graphene Conductivity 12%
• Capacitance Retention 12%
• Supercapacitor Application 12%
• Low-temperature Hydrothermal Method 12%
• Mild Oxidant 12%
• Pure Materials 12%
• High Cyclic Stability 12%
• Energy Storage Capacity 12%
• V1G1 12%

Material Science

• Graphene 100%
• Nanoribbon 100%
• Hydrothermal Synthesis 100%
• Capacitance 33%
• Supercapacitors 11%
• Cyclic Voltammetry 11%
• Oxidant 11%
• Graphene Oxide 11%
• Reduced Graphene Oxide 11%
• Electron Energy Loss Spectrometry 11%
• Multilayer 11%
• Crystal Structure 11%

Chemical Engineering

• Graphene 100%
• Nanobelts 100%