A General Eco-friendly Production of Bio-sources Derived Micro-/Mesoporous Carbons with Robust Supercapacitive Behaviors and Sodium-Ion Storage

Abstract

Recently, biomass-derived carbons (BDCs) have attracted great attention as energy storage materials due to their congenital advantages. However, green and moderate activation protocols for advanced BDCs are still challengeable. Herein, we devised a scalable, yet general, strategy to fabricate a series of porous BDCs via direct activation of various abundant biomass resources by using KHCO3 as eco-friendly activator. The BDCs activated by KHCO3 exhibited even better electrochemical behaviors than other activators. More encouragingly, the optimized shiitake mushroom-derived carbon (CKHCO3) was endowed with a surface area of 1788.1 m2 g–1, average pore size of 2.5 nm, high-content N (1.3 at. %), and mass density of 0.62 g cm–3. When evaluated as electrodes for supercapacitors, our fabricated CKHCO3 electrode (5 mg cm–2) in a three-electrode configuration exhibited competitive capacitance of 354.8 F g–1 (220.0 F cm–3) at a rate of 1.0 A g–1 in 1 M H2SO4. Furthermore, the organic CKHCO3//CKHCO3 symmetric capac...