Effect of pore structure on the electrochemical performance of coal-based activated carbons in non-aqueous electrolyte
By ZHANG, Chuan-xiang; ZHANG, Rui; XING, Bao-lin; CHENG, Guo; Xie, Ying-bo; QIAO, Wen-ming; ZHAN, Liang; LIANG, Xiao-yi & LING, Li-cheng
Published in New Carbon Materials
NULL
2010
Abstract
Anthracite was activated by NaOH to prepare high-performance activated carbons as electrodes for electric double-layer capacitors. The porous structure and electrochemical characteristics of the carbons were investigated by nitrogen sorption and electrochemical methods. The effect of pore structure on the electrochemical performance of the carbons in a 1 mol/L (C2H5)4NBF4/propylene carbonate (PC) electrolyte was investigated. The as-prepared activated carbons exhibit large surface areas (943-2479 m2/g) and high-specific capacitances (57–167 F/g). The specific capacitance depends not only on the surface area, but also on the pore size distribution (PSD) of the carbon. Pores with a size of 2–3 nm are crucial for the ions to penetrate inside them for the (C2H5)4NBF4/PC electrolyte. Specific capacitance is higher and impedance is lower for the sample with a wider PSD due to the fact that electrolyte ions could easily enter the pores.
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