Flexible and transparent supercapacitor based on In2O3 nanowire/carbon nanotube heterogeneous films

In this paper, a supercapacitor with the features of optical transparency and mechanical flexibility has been fabricated using metal oxide nanowire/carbon nanotube heterogeneous film, and studies found that the power density can reach 7.48 kW/kg after galvanostatic measurements. In addition, to stud...

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Published in	Applied physics letters Vol. 94; no. 4
Main Authors	Chen, Po-Chiang, Shen, Guozhen, Sukcharoenchoke, Saowalak, Zhou, Chongwu
Format	Journal Article
Language	English Japanese
Published	26.01.2009
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Abstract	In this paper, a supercapacitor with the features of optical transparency and mechanical flexibility has been fabricated using metal oxide nanowire/carbon nanotube heterogeneous film, and studies found that the power density can reach 7.48 kW/kg after galvanostatic measurements. In addition, to study the stability of flexible and transparent supercapacitor, the device was examined for a large number of cycles and showed a good retention of capacity (∼88%). This approach could work as the platform for future transparent and flexible nanoelectronics.
AbstractList	In this paper, a supercapacitor with the features of optical transparency and mechanical flexibility has been fabricated using metal oxide nanowire/carbon nanotube heterogeneous film, and studies found that the power density can reach 7.48 kW/kg after galvanostatic measurements. In addition, to study the stability of flexible and transparent supercapacitor, the device was examined for a large number of cycles and showed a good retention of capacity (∼88%). This approach could work as the platform for future transparent and flexible nanoelectronics.
Author	Shen, Guozhen Sukcharoenchoke, Saowalak Chen, Po-Chiang Zhou, Chongwu
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