Ag(e)ing and Degradation of Supercapacitors: Causes, Mechanisms, Models and Countermeasures

Xuecheng Chen; Yuping Wu; Rudolf Holze

doi:10.3390/molecules28135028

Ag(e)ing and Degradation of Supercapacitors: Causes, Mechanisms, Models and Countermeasures

Xuecheng Chen, Yuping Wu, Rudolf Holze

Research output: Contribution to journal › Review article › peer-review

16 Scopus citations

Abstract

The most prominent and highly visible advantage attributed to supercapacitors of any type and application, beyond their most notable feature of high current capability, is their high stability in terms of lifetime, number of possible charge/discharge cycles or other stability-related properties. Unfortunately, actual devices show more or less pronounced deterioration of performance parameters during time and use. Causes for this in the material and component levels, as well as on the device level, have only been addressed and discussed infrequently in published reports. The present review attempts a complete coverage on these levels; it adds in modelling approaches and provides suggestions for slowing down ag(e)ing and degradation.

Original language	English
Article number	5028
Journal	Molecules
Volume	28
Issue number	13
DOIs	https://doi.org/10.3390/molecules28135028
State	Published - Jul 2023
Externally published	Yes

Keywords

ageing
aging
degradation
electrochemical capacitor
electrochemical double layer capacitor
pseudocapacitive
supercapacitor
ultracapacitor

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10.3390/molecules28135028

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abstract = "The most prominent and highly visible advantage attributed to supercapacitors of any type and application, beyond their most notable feature of high current capability, is their high stability in terms of lifetime, number of possible charge/discharge cycles or other stability-related properties. Unfortunately, actual devices show more or less pronounced deterioration of performance parameters during time and use. Causes for this in the material and component levels, as well as on the device level, have only been addressed and discussed infrequently in published reports. The present review attempts a complete coverage on these levels; it adds in modelling approaches and provides suggestions for slowing down ag(e)ing and degradation.",

keywords = "ageing, aging, degradation, electrochemical capacitor, electrochemical double layer capacitor, pseudocapacitive, supercapacitor, ultracapacitor",

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PY - 2023/7

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N2 - The most prominent and highly visible advantage attributed to supercapacitors of any type and application, beyond their most notable feature of high current capability, is their high stability in terms of lifetime, number of possible charge/discharge cycles or other stability-related properties. Unfortunately, actual devices show more or less pronounced deterioration of performance parameters during time and use. Causes for this in the material and component levels, as well as on the device level, have only been addressed and discussed infrequently in published reports. The present review attempts a complete coverage on these levels; it adds in modelling approaches and provides suggestions for slowing down ag(e)ing and degradation.

AB - The most prominent and highly visible advantage attributed to supercapacitors of any type and application, beyond their most notable feature of high current capability, is their high stability in terms of lifetime, number of possible charge/discharge cycles or other stability-related properties. Unfortunately, actual devices show more or less pronounced deterioration of performance parameters during time and use. Causes for this in the material and component levels, as well as on the device level, have only been addressed and discussed infrequently in published reports. The present review attempts a complete coverage on these levels; it adds in modelling approaches and provides suggestions for slowing down ag(e)ing and degradation.

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KW - degradation

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KW - electrochemical double layer capacitor

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Ag(e)ing and Degradation of Supercapacitors: Causes, Mechanisms, Models and Countermeasures

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Keywords

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