▎ 摘　　要

Poly(3,4)-ethylenedioxythiophene/graphene oxide/iron oxide (PEDOT/GO/Fe2O3) ternary composite was synthesized using a simple one-step electropolymerization. The electrochemical studies showed that the specific capacitance of PEDOT/GO/Fe2O3 composite was three times higher (221 F g(- 1)) than the binary composite of PEDOT/GO which was 73 F g(- 1) at 25 mV s(- 1). The upsurge performance was believed to be contributed from anchoring particles of Fe2O3 on the wrinkly PEDOT/GO that acted as a spacer in order to maximize the utilization of the electroactive materials for electrochemical reaction. Furthermore, the PEDOT/GO/Fe2O3 composite was also able to attain a specific power of 8 Wh kg(- 1) at a specific power of 493 W kg(- 1) at 1 A g(- 1) and exhibited excellent long-term stability performance even after 1000 cycles owing to the high mechanical strength provided by GO. These performances make PEDOT/GO/Fe2O3 composite as a promising electrode material for supercapacitor.