Laser photonic-reduction stamping for graphene-based micro-supercapacitors ultrafast fabrication

Laser photonic-reduction stamping for graphene-based micro-supercapacitors ultrafast fabrication

Microfabrication for cost-effective miniaturized energy storage devices remains a challenge. Here, the authors propose a spatially shaped femtosecond laser method, which is ultrafast, one-step, high resolution and large-scale, for use in patterning flexible high-performance micro-supercapacitors.

Bibliographic Details
Main Authors: Yongjiu Yuan, Lan Jiang, Xin Li, Pei Zuo, Chenyang Xu, Mengyao Tian, Xueqiang Zhang, Sumei Wang, Bing Lu, Changxiang Shao, Bingquan Zhao, Jiatao Zhang, Liangti Qu, Tianhong Cui
Format: Article
Language:English
Published: Nature Portfolio 2020-12-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-020-19985-2
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author Yongjiu Yuan
Lan Jiang
Xin Li
Pei Zuo
Chenyang Xu
Mengyao Tian
Xueqiang Zhang
Sumei Wang
Bing Lu
Changxiang Shao
Bingquan Zhao
Jiatao Zhang
Liangti Qu
Tianhong Cui
author_facet Yongjiu Yuan
Lan Jiang
Xin Li
Pei Zuo
Chenyang Xu
Mengyao Tian
Xueqiang Zhang
Sumei Wang
Bing Lu
Changxiang Shao
Bingquan Zhao
Jiatao Zhang
Liangti Qu
Tianhong Cui
author_sort Yongjiu Yuan
collection DOAJ
description Microfabrication for cost-effective miniaturized energy storage devices remains a challenge. Here, the authors propose a spatially shaped femtosecond laser method, which is ultrafast, one-step, high resolution and large-scale, for use in patterning flexible high-performance micro-supercapacitors.
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language English
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publishDate 2020-12-01
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spelling doaj.art-077eadcfadd34e03b7c5305397ce0ff12022-12-21T22:59:32ZengNature PortfolioNature Communications2041-17232020-12-0111111110.1038/s41467-020-19985-2Laser photonic-reduction stamping for graphene-based micro-supercapacitors ultrafast fabricationYongjiu Yuan0Lan Jiang1Xin Li2Pei Zuo3Chenyang Xu4Mengyao Tian5Xueqiang Zhang6Sumei Wang7Bing Lu8Changxiang Shao9Bingquan Zhao10Jiatao Zhang11Liangti Qu12Tianhong Cui13Laser Micro/Nano-Fabrication Laboratory, School of Mechanical Engineering, Beijing Institute of TechnologyLaser Micro/Nano-Fabrication Laboratory, School of Mechanical Engineering, Beijing Institute of TechnologyLaser Micro/Nano-Fabrication Laboratory, School of Mechanical Engineering, Beijing Institute of TechnologyLaser Micro/Nano-Fabrication Laboratory, School of Mechanical Engineering, Beijing Institute of TechnologyLaser Micro/Nano-Fabrication Laboratory, School of Mechanical Engineering, Beijing Institute of TechnologyLaser Micro/Nano-Fabrication Laboratory, School of Mechanical Engineering, Beijing Institute of TechnologyLaser Micro/Nano-Fabrication Laboratory, School of Mechanical Engineering, Beijing Institute of TechnologyLaser Micro/Nano-Fabrication Laboratory, School of Mechanical Engineering, Beijing Institute of TechnologyKey Laboratory of Cluster Science Ministry of Education of China, School of Chemistry and Chemical Engineering, Beijing Institute of TechnologyKey Laboratory of Cluster Science Ministry of Education of China, School of Chemistry and Chemical Engineering, Beijing Institute of TechnologyTianjin Navigation Instruments Research InstituteBeijing Key Laboratory of Construction-Tailorable Advanced Functional Materials and Green Applications, School of Materials Science & Engineering, Beijing Institute of TechnologyKey Laboratory of Cluster Science Ministry of Education of China, School of Chemistry and Chemical Engineering, Beijing Institute of TechnologyDepartment of Mechanical Engineering, University of MinnesotaMicrofabrication for cost-effective miniaturized energy storage devices remains a challenge. Here, the authors propose a spatially shaped femtosecond laser method, which is ultrafast, one-step, high resolution and large-scale, for use in patterning flexible high-performance micro-supercapacitors.https://doi.org/10.1038/s41467-020-19985-2
spellingShingle Yongjiu Yuan
Lan Jiang
Xin Li
Pei Zuo
Chenyang Xu
Mengyao Tian
Xueqiang Zhang
Sumei Wang
Bing Lu
Changxiang Shao
Bingquan Zhao
Jiatao Zhang
Liangti Qu
Tianhong Cui
Laser photonic-reduction stamping for graphene-based micro-supercapacitors ultrafast fabrication
Nature Communications
title Laser photonic-reduction stamping for graphene-based micro-supercapacitors ultrafast fabrication
title_full Laser photonic-reduction stamping for graphene-based micro-supercapacitors ultrafast fabrication
title_fullStr Laser photonic-reduction stamping for graphene-based micro-supercapacitors ultrafast fabrication
title_full_unstemmed Laser photonic-reduction stamping for graphene-based micro-supercapacitors ultrafast fabrication
title_short Laser photonic-reduction stamping for graphene-based micro-supercapacitors ultrafast fabrication
title_sort laser photonic reduction stamping for graphene based micro supercapacitors ultrafast fabrication
url https://doi.org/10.1038/s41467-020-19985-2
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AT tianhongcui laserphotonicreductionstampingforgraphenebasedmicrosupercapacitorsultrafastfabrication

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