화학공학소재연구정보센터
Journal of Power Sources, Vol.337, 25-35, 2017
Graphene incorporated, N doped activated carbon as catalytic electrode in redox active electrolyte mediated supercapacitor
Graphene incorporated, N doped activated carbons (GNACs) are synthesized by alkali activation of graphene-polypyrrole composite (G-PPy) at different temperatures for application as electrode materials of supercapacitors. Under optimal activation temperature of 700 degrees C, the resultant samples, labeled as GNAC(700), owns hierarchically porous texture with high specific surface area and efficient ions diffusion channels, N, O functionalized surface with apparent pseudocapacitance contribution and high wettability, thus can deliver a moderate capacitance, a high rate capability and a good cycleability when used as supercapacitor electrode. Additionally, the GNAC(700) electrode demonstrates high catalytic activity for the redox reaction of pyrocatechol/o-quinone pair in H2SO4 electrolyte, thus enables a high pseudocapacitance from electrolyte. Under optimal pyrocatechol concentration in H2SO4 electrolyte, the electrode capacitance of GNAC(700) increases by over 4 folds to 512 F g(-1) at 1 A g(-1), an excellent cycleability is also achieved simultaneously. Pyridinic-N is deemed to be responsible for the high catalytic activity. This work provides a promising strategy to ameliorate the capacitive performances of supercapacitors via the synergistic interaction between redox-active electrolyte and catalytic electrodes. (C) 2016 Elsevier B.V. All rights reserved.