Layered Double Hydroxide with Interlayer Quantum Dots and Laminate Defects for High-Performance Supercapacitor

Keyphrases

• Quantum Dots 100%
• High-performance Supercapacitors 100%
• Layered Double Hydroxide 100%
• Cu-Co 57%
• ZnS Quantum Dots 42%
• Sulfur 14%
• Energy Density 14%
• Power Density 14%
• Zn2+ 14%
• Spatial Structure 14%
• Electron Transport 14%
• Charge Repulsion 14%
• Interlayer Spacing 14%
• Adjustability 14%
• Active Center 14%
• Capacitance Retention 14%
• Coulombic Efficiency 14%
• High Charge Density 14%
• Enhanced Conductivity 14%
• Enhanced Capacitance 14%
• Activity Design 14%
• Vulcanization 14%
• Hybrid Supercapacitor 14%
• Ultrastability 14%
• Abundant Active Sites 14%
• Heavy Ions 14%
• Ultrahigh Capacitance 14%
• Copper Foam 14%
• Pre-embedding 14%
• Dual Activity 14%
• Hydroxide Layer 14%
• Copper Source 14%
• Outstanding Capacitance 14%
• Self-supporting Structure 14%
• Rich Oxygen Vacancies 14%

Material Science

• Supercapacitors Performance 100%
• Layered Double Hydroxides 100%
• Quantum Dot 100%
• Capacitance 42%
• Density 28%
• Theoretical Calculation 14%
• Vulcanization 14%
• Oxygen Vacancy 14%
• Electron Transfer 14%
• Energy Density 14%
• Hybrid Supercapacitor 14%

Chemical Engineering

• Rich Oxygen Vacancies 100%