Title :
Flexible solid-state fiber-shaped supercapacitors based on organic-inorganic hybrid electrodes for wearable energy storage
Author :
Jin, H.Y. ; Liu, Y. ; Li, W.C. ; Mak, C.L. ; Huang, H.T. ; Tang, W.M. ; Chan, H.L.W.
Author_Institution :
Dept. of Appl. Phys., Hong Kong Polytech. Univ., Hong Kong, China
Abstract :
A high-performance and flexible fiber-shaped supercapacitor (FSC) with organic-inorganic hybrid structure was fabricated. After adding a thin layer of conductive polymer polyaniline (PANI) as both active material and electron transport path on the manganese oxide (MnO2)-coated carbon fiber thread (CFT) electrode, the capacitance of the electrode was increased by 2530 %. These CFT-MnO2-PANI hybrid electrodes were further assembled into a solid-state FSC. The as-prepared FSC device revealed excellent performance such as high volumetric capacitance, good rate capability and excellent mechanical stability in both electrochemical test and bending test. These promising results demonstrate the proposed FSC has great potential as an efficient energy storage device for wearable electronics.
Keywords :
carbon fibres; coatings; conducting polymers; electrochemical electrodes; electron transport theory; flexible electronics; manganese compounds; organic-inorganic hybrid materials; supercapacitors; CFT; FSC; MnO2; PANI thin layer; active material; carbon fiber thread electrode capacitance; conductive polymer polyaniline thin layer; electron transport; energy storage device; flexible solid-state fiber-shaped supercapacitor; organic-inorganic hybrid structure fabrication; wearable electronics; Electron traps; Electronic mail; Manganese; Optical fiber devices; Polymers; Power capacitors; Organic-inorganic; energy storage; fiber-shaped supercapacitor; flexible;
Conference_Titel :
Electron Devices and Solid-State Circuits (EDSSC), 2014 IEEE International Conference on
DOI :
10.1109/EDSSC.2014.7061104
