Journal of Power Sources, Vol.172, No.1, 451-459, 2007
Synthesis and characterization of tin oxide/carbon aerogel composite electrodes for electrochemical supercapacitors
Two types of carbon aerogel-based functional electrodes for supercapacitor applications are developed. To improve the electrochemical performance of the electrodes, carbon aerogels are doped with pseudocapacitive tin oxide either by impregnating tin oxide so] into resorcinol-formaldehyde (RF) wet gels (Method 1), or by impregnating tin tetrachloride solution into carbon aerogel electrodes (Method 11). The electrodes are heat-treated to 450 degrees C in air to activate the electrode surface and complete the oxidation of tin-precursors in the network structure of the aerogel. The effects of different impregnation methods on the physical/electrochemical properties of the composite electrodes are investigated. Microstructural and compositional variations of the electrodes with tin oxide doping are also examined by scanning electron microscopy and energy dispersive Xray analysis. The tin oxide/carbon aerogel composite electrodes synthesized by both methods have similar specific capacitances (66-70 F g(-1)). Composite electrodes synthesized via Method II showed better cyclic stability compared with electrodes synthesized via Method I. (C) 2007 Elsevier B.V. All rights reserved.
Keywords:supercapacitor;electrical double-layer capacitor;pseudocapacitor;carbon aerogel;tin oxide;ambient drying