A comprehensive review of lithium ion capacitor: development, modelling, thermal management and applications

•The review paper summarizes the latest research and findings in the field of lithium-ion capacitor technology for the first time.•The working principles and components’ materials are explained and compared in terms of energy density, power density, safety, and performance.•Different modelling techn...

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Bibliographic Details
Published in:Journal of energy storage 2021-02, Vol.34, p.102019, Article 102019
Main Authors: Soltani, Mahdi, Beheshti, S. Hamidreza
Format: Article
Language:English
Subjects:
3D thermal modelling
electro-thermal modelling
industrial applications
lifetime modelling
Lithium ion capacitor
thermal management systems
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Summary:•The review paper summarizes the latest research and findings in the field of lithium-ion capacitor technology for the first time.•The working principles and components’ materials are explained and compared in terms of energy density, power density, safety, and performance.•Different modelling techniques including electrothermal modelling, lifetime modelling, postmortem analysis, and 3D thermal modelling has been reviewed and comprehensively explained.•Different forms of thermal management systems have been reviewed and compared.•Different possible applications have been explained and highlighted. The lithium ion capacitor (LIC) is a hybrid energy storage device combining the energy storage mechanisms of the lithium ion battery (LIB) and the electrical double-layer capacitor (EDLC), which offers some of the advantages of both technologies and eliminates their drawbacks. This article presents a review of LIC materials, the electro-thermal model, lifetime model, thermal model and thermal management system, and possible applications in order to summarise the recent findings and research progress for LIC technology. First, a detailed overview of the LIC with general working principles is presented. For LIC electro-thermal modelling, the status of knowledge is reviewed, where the electro-chemical methods, equivalent circuit model, and fractional order model are summarised. For lifetime modelling, different methods are covered together with an underlying analysis of the aging mechanism and its influencing factor. Thermal modelling aspects and thermal management system design are summarised later. Finally, some potential applications reported in the literature are outlined, especially the combination with a high-energy device for hybrid energy storage constitution to obtain the synergistic benefit of the combined energy storage units.
ISSN:2352-152X
2352-1538
DOI:10.1016/j.est.2020.102019