3D porous ternary composite electrodes have been prepared by electrodepositing MnO2 and poly(3,4-ethylenedioxythiophene) (PEDOT) successively on carbon fabric-aligned carbon nanotube (CF-ACNT) hybrids for the super-capacitors. MnO2 petal-like nano-sheets are deposited on the ACNT surface with PEDOT uniformly encapsulated and interconnected MnO2 nano-sheets and ACNTs. Cyclic voltammetry shows the MnO2 utilization of ternary composites up to 77.7%, which far exceeds that of MnO2/CNT-based materials reported recently. Moreover, the 3D porous ternary system allows large mass loading of MnO2. And the ternary composites can remain a high MnO2 utilization of 36% with the MnO2 mass loading up to 3.11 mg cm(-2) while achieve a reasonable area-normalized capacitance of 1.3 F cm(-2) at 0.1 mV s(-1). The ternary composites with substantially high mass loading exhibit an excellent rate capability and cycling stability, retaining over 95% of its initial charge after 1000 cycles. The excellent electrochemical performances are attributed to the synergetic effect of each component with unique properties and structures: high porosity and interconnectivity of CF, aligned ion diffusion channels along ACNTs, ultrathin MnO2 nano-sheets and the improved conductivity by PEDOT. (C) 2012 Elsevier B.V. All rights reserved.