Electrical Storage

Longan Shell Biochar Boosts Octadecane Thermal Conductivity by 97.89 Percent for Better Energy Storage
Lignin-Derived Carbon and Weakly Solvating Electrolyte Enable High-Voltage Supercapacitors with 77.4 Wh/kg Energy Density
Sustainable Energy Shift: Dual Metal Biochar Increases Biohydrogen Yield by 103 Percent
Palm Kernel Shell Torrefaction Increases Energy Content by 21 Percent
Optimal Processing Temperatures Boost Energy Storage Capacity in Neem Seed Biochar Composites
Hydrogen Production Efficiency Increases by 28 Percent with New Iron Based Biochar Catalyst
Unprocessed Wood Biochar Delivers Double the Sodium Storage Capacity of High Energy Activated Alternatives
Wet Torrefaction Outperforms Dry Methods for High-Efficiency Oxytree Biofuel Production
Fe/Mn-Modified Biochar Increases Biohydrogen Production by 47.3% During Co-Fermentation
Sugarcane Biochar Electrode Outperforms Metal Oxide Composites for Next-Generation Supercapacitors