Electric power generation: Via asymmetric moisturizing of graphene oxide for flexible, printable and portable electronics

Yuan Liang; Fei Zhao; Zhihua Cheng; Yaxi Deng; Yukun Xiao; Huhu Cheng; Panpan Zhang; Yaxin Huang; Huibo Shao; Liangti Qu

doi:10.1039/c8ee00671g

Electric power generation: Via asymmetric moisturizing of graphene oxide for flexible, printable and portable electronics

Yuan Liang, Fei Zhao, Zhihua Cheng, Yaxi Deng, Yukun Xiao, Huhu Cheng, Panpan Zhang, Yaxin Huang, Huibo Shao^*, Liangti Qu

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

243 Citations (Scopus)

Abstract

Flexible power supplies that can harvest power from an ambient environment are of considerable interest for future portable electronics. However, the complex structure and costly functional material of current power generators hinder their further development and practical application. Here we demonstrate flexible, all-printable graphene oxide (GO) functionalized paper as a moisture-electric power generator with an induced voltage of up to 2 V. Such high voltage is achieved by asymmetric moisturizing of GO, which enables directional ion migration across the GO. This work demonstrates a low-cost, scalable, lightweight and bendable power generator, opening up new possibilities for significantly expanding the application domain of graphene and reducing the cost of portable electronics.

Original language	English
Pages (from-to)	1730-1735
Number of pages	6
Journal	Energy and Environmental Science
Volume	11
Issue number	7
DOIs	https://doi.org/10.1039/c8ee00671g
Publication status	Published - Jul 2018
Externally published	Yes

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abstract = "Flexible power supplies that can harvest power from an ambient environment are of considerable interest for future portable electronics. However, the complex structure and costly functional material of current power generators hinder their further development and practical application. Here we demonstrate flexible, all-printable graphene oxide (GO) functionalized paper as a moisture-electric power generator with an induced voltage of up to 2 V. Such high voltage is achieved by asymmetric moisturizing of GO, which enables directional ion migration across the GO. This work demonstrates a low-cost, scalable, lightweight and bendable power generator, opening up new possibilities for significantly expanding the application domain of graphene and reducing the cost of portable electronics.",

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T2 - Via asymmetric moisturizing of graphene oxide for flexible, printable and portable electronics

AU - Liang, Yuan

AU - Zhao, Fei

AU - Cheng, Zhihua

AU - Deng, Yaxi

AU - Xiao, Yukun

AU - Cheng, Huhu

AU - Zhang, Panpan

AU - Huang, Yaxin

AU - Shao, Huibo

AU - Qu, Liangti

PY - 2018/7

Y1 - 2018/7

N2 - Flexible power supplies that can harvest power from an ambient environment are of considerable interest for future portable electronics. However, the complex structure and costly functional material of current power generators hinder their further development and practical application. Here we demonstrate flexible, all-printable graphene oxide (GO) functionalized paper as a moisture-electric power generator with an induced voltage of up to 2 V. Such high voltage is achieved by asymmetric moisturizing of GO, which enables directional ion migration across the GO. This work demonstrates a low-cost, scalable, lightweight and bendable power generator, opening up new possibilities for significantly expanding the application domain of graphene and reducing the cost of portable electronics.

AB - Flexible power supplies that can harvest power from an ambient environment are of considerable interest for future portable electronics. However, the complex structure and costly functional material of current power generators hinder their further development and practical application. Here we demonstrate flexible, all-printable graphene oxide (GO) functionalized paper as a moisture-electric power generator with an induced voltage of up to 2 V. Such high voltage is achieved by asymmetric moisturizing of GO, which enables directional ion migration across the GO. This work demonstrates a low-cost, scalable, lightweight and bendable power generator, opening up new possibilities for significantly expanding the application domain of graphene and reducing the cost of portable electronics.

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Electric power generation: Via asymmetric moisturizing of graphene oxide for flexible, printable and portable electronics

Abstract

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