论文信息 - Fabrics Capable of Capacitive Energy Storage

Fabrics Capable of Capacitive Energy Storage

Flexible and lightweight fabric supercapacitors were seamlessly integrated into "smart" garments as an energy source. The electrochemical behavior of porous carbons applied with a traditional printmaking technique (screen printing) onto woven cotton and polyester fabrics was studied in non-toxic, non-flammable aqueous electrolytes. The porous structure of fabrics makes them ideal for supercapacitor applications that need porous films for ion transfer between electrodes. Electrodes derived from activated carbon (YP17) showed a high specific capacitance of 91 F/g on cotton and 85 F/g on polyester (i.e., ~0.43 F/cm2). Replacing conventional activated carbon with high surface area titanium carbidederived carbon (TiC-CDC) and adding highly conductive carbon onions, the capacitance can be improved to 160 F/g.

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