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A high-performance carbon derived from corn stover via microwave and slow pyrolysis for supercapacitors
- Jin, Hong, Wang, Xiaomin, Shen, Yanbin, Gu, Zhengrong
- Journal of analytical and applied pyrolysis 2014 v.110 pp. 18-23
- activated carbon, adsorption, biochar, capacitance, corn stover, desorption, electrochemistry, nitrogen, potassium hydroxide, pyrolysis, sodium hydroxide, surface area
- Microwave and slow pyrolysis were conducted for converting corn stover to biochar. Chemical agents of sodium hydroxide and potassium hydroxide were used to progressively produce activated carbon. The pore structures and surface area of the samples were characterized by nitrogen adsorption/desorption at 77K. The results demonstrated that higher specific surface areas of activated carbons were obtained by microwave pyrolysis combined with potassium hydroxide activation. However, electrochemical measurements showed that the slow pyrolysis biochar treated with 0.05molg⁻¹ (potassium hydroxide/biochar) presented the best electrochemical properties. For this sample the specific capacitance was 245.9Fg⁻¹ at a current density of 0.1Ag⁻¹, and it can maintain a specific capacitance of 211.6Fg⁻¹ even at the high current density of 1.0Ag⁻¹.