Supercapacitor

Lignin-Derived Carbon and Weakly Solvating Electrolyte Enable High-Voltage Supercapacitors with 77.4 Wh/kg Energy Density
Element Doping Quadruples Biochar’s Carbon Sequestration and Enhances Energy Storage Performance
Sugarcane Biochar Electrode Outperforms Metal Oxide Composites for Next-Generation Supercapacitors
Cotton Stalk Biochar Achieves Very High Surface Area and Highest Capacitance for Next-Gen Energy Storage
Phosphorous-Doped Biochar Exhibits Over 400x Higher Adsorption Capacity for Mercury
Biochar’s Leap: Element Doping Boosts Adsorption by up to 17.8x and Sustains 98% Supercapacitor Capacity Over 15,000 Cycles
200°C Pyrolysis Yields Sugarcane Biochar with 5.42 m²g⁻¹ Surface Area, Insufficient for Supercapacitor Electrode Standards
Enhancing Supercapacitors: A Review of Biochar Production from Biomass via Thermochemical Conversion
Broccoli-Derived Biochar: A Green Solution for Supercapacitor Materials
Valorizing Prosopis Juliflora Biochar for Supercapacitor Applications: A Techno-Economic and Lifecycle Analysis