Rational Design of Electrode Materials for Advanced Supercapacitors: From Lab Research to Commercialization

Huang, Jun; Xie, Yuanpeng; You, Yang; Yuan, Jili; Xu, Qinqin; Xie, Haibo; Chen, Yiwang

doi:10.1002/adfm.202213095

articleAdvanced Functional MaterialsJan 18, 2023Closed access

Rational Design of Electrode Materials for Advanced Supercapacitors: From Lab Research to Commercialization

JHJun Huang YXYuanpeng Xie YYYang You JYJili Yuan QXQinqin Xu

Guizhou University · Nanchang University · +1 more institution

Indexed incrossref

Abstract

Abstract Supercapacitors can harvest electrical energy from intermittent sources and transfer it quickly, but their specific energy must be raised if they are applied to efficiently power wearable and flexible electronics, as well as larger equipment. However, the remaining big gap between the lab research and practical applications seriously hinders the further progress of advanced supercapacitors, especially for electrode materials. Consequently, from a commercial/usable perspective, a clear guideline from lab research to commercialization is highly desired for bringing advanced supercapacitors from basic research into reality. This review focuses on the key factors of advanced supercapacitors from lab…

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427

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FWCI: 32.33
Percentile: 100%
References: 298

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Authors

7

Topics & keywords

Topics

Keywords

Supercapacitor
Commercialization
Energy storage
Nanotechnology
USable
Key (lock)
Materials science
Computer science

UN Sustainable Development Goals

Affordable and clean energy

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