High-Performance Pseudocapacitive Microsupercapacitors from Laser-Induced Graphene

Lei Li; Jibo Zhang; Zhiwei Peng; Yilun Li; Caitian Gao; Yongsung Ji; Ruquan Ye; Nam Dong Kim; Qifeng Zhong; Yang Yang; Huilong Fei; Gedeng Ruan; James M. Tour

doi:10.1002/adma.201503333

High-Performance Pseudocapacitive Microsupercapacitors from Laser-Induced Graphene

Lei Li, Jibo Zhang, Zhiwei Peng, Yilun Li, Caitian Gao, Yongsung Ji, Ruquan Ye, Nam Dong Kim, Qifeng Zhong, Yang Yang, Huilong Fei, Gedeng Ruan, James M. Tour^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

520 Citations (Scopus)

Abstract

All-solid-state, flexible, symmetric, and asymmetric microsupercapacitors are fabricated by a simple method in a scalable fashion from laser-induced graphene on commercial polyimide films, followed by electrodeposition of pseudocapacitive materials on the interdigitated in-plane architectures. These microsupercapacitors demonstrate comparable energy density to commercial lithium thin-film batteries, yet exhibit more than two orders of magnitude higher power density with good mechanical flexibility.

Original language	English
Pages (from-to)	838-845
Number of pages	8
Journal	Advanced Materials
Volume	28
Issue number	5
Online published	3 Dec 2015
DOIs	https://doi.org/10.1002/adma.201503333
Publication status	Published - 3 Feb 2016
Externally published	Yes

Funding

We thank Victor Zlotnicki and Akiko Hayashi (Jet Propulsion Laboratory, California Institute of Technologyf)o r makingt heir griddedT OPEX/- POSEIDON altimeter residuals available for this investigation; their residuals were based on the MGDR from the NASA Physical Oceanography Distributed Active Archive Center (PO-DAAC). The researchd escribedh ere was supported by grant JPLCIT 96-0865 from the Jet Propulsion Laboratory funded under the TOPEX/POSEIDON Extended Mission Announcement of Opportunity. Lamont- Doherty Earth Observatory contribution 5902.

Research Keywords

ferric oxyhydroxides
laser-induced graphene
manganese dioxide
microsupercapacitors
polyaniline

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title = "High-Performance Pseudocapacitive Microsupercapacitors from Laser-Induced Graphene",

abstract = "All-solid-state, flexible, symmetric, and asymmetric microsupercapacitors are fabricated by a simple method in a scalable fashion from laser-induced graphene on commercial polyimide films, followed by electrodeposition of pseudocapacitive materials on the interdigitated in-plane architectures. These microsupercapacitors demonstrate comparable energy density to commercial lithium thin-film batteries, yet exhibit more than two orders of magnitude higher power density with good mechanical flexibility.",

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author = "Lei Li and Jibo Zhang and Zhiwei Peng and Yilun Li and Caitian Gao and Yongsung Ji and Ruquan Ye and Kim, {Nam Dong} and Qifeng Zhong and Yang Yang and Huilong Fei and Gedeng Ruan and Tour, {James M.}",

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doi = "10.1002/adma.201503333",

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T1 - High-Performance Pseudocapacitive Microsupercapacitors from Laser-Induced Graphene

AU - Li, Lei

AU - Zhang, Jibo

AU - Peng, Zhiwei

AU - Li, Yilun

AU - Gao, Caitian

AU - Ji, Yongsung

AU - Ye, Ruquan

AU - Kim, Nam Dong

AU - Zhong, Qifeng

AU - Yang, Yang

AU - Fei, Huilong

AU - Ruan, Gedeng

AU - Tour, James M.

PY - 2016/2/3

Y1 - 2016/2/3

N2 - All-solid-state, flexible, symmetric, and asymmetric microsupercapacitors are fabricated by a simple method in a scalable fashion from laser-induced graphene on commercial polyimide films, followed by electrodeposition of pseudocapacitive materials on the interdigitated in-plane architectures. These microsupercapacitors demonstrate comparable energy density to commercial lithium thin-film batteries, yet exhibit more than two orders of magnitude higher power density with good mechanical flexibility.

AB - All-solid-state, flexible, symmetric, and asymmetric microsupercapacitors are fabricated by a simple method in a scalable fashion from laser-induced graphene on commercial polyimide films, followed by electrodeposition of pseudocapacitive materials on the interdigitated in-plane architectures. These microsupercapacitors demonstrate comparable energy density to commercial lithium thin-film batteries, yet exhibit more than two orders of magnitude higher power density with good mechanical flexibility.

KW - ferric oxyhydroxides

KW - laser-induced graphene

KW - manganese dioxide

KW - microsupercapacitors

KW - polyaniline

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DO - 10.1002/adma.201503333

M3 - RGC 21 - Publication in refereed journal

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JO - Advanced Materials

JF - Advanced Materials

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ER -

High-Performance Pseudocapacitive Microsupercapacitors from Laser-Induced Graphene

Abstract

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Research Keywords

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