Recent Advances in Preparation and Application of BOPP Film for Energy Storage and Dielectric Capacitors

Recent Advances in Preparation and Application of BOPP Film for Energy Storage and Dielectric Capacitors

Energy storage polymers are critical to modern microelectronics, electric vehicles, and wearable devices. Capacitor energy storage devices are the focus of contemporary research, with film dielectric capacitors being the focus of mainstream research. Research on polymers—particularly polypropylene—h...

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Bibliographic Details
Main Authors: Kelei Zhang, Junlong Yao, Fangju Zhu, Yuan Gao, Yixi Gu, Yani Guo, Yimin Sun, Yu An
Format: Article
Language:English
Published: MDPI AG 2025-04-01
Series:Molecules
Subjects:
polypropylene film
energy storage
dielectric capacitor
modification
stretching process
Online Access:https://www.mdpi.com/1420-3049/30/7/1596
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Summary:Energy storage polymers are critical to modern microelectronics, electric vehicles, and wearable devices. Capacitor energy storage devices are the focus of contemporary research, with film dielectric capacitors being the focus of mainstream research. Research on polymers—particularly polypropylene—has yielded numerous innovations, but their energy storage performance and breakdown resistance under extreme conditions remain unsatisfactory. Numerous reports have proposed various solutions, but systematic reviews, classifications, and investigations regarding the effects of processing on polypropylene films remain lacking. This study collects and organizes the latest research reports on dielectric-related polypropylene films with the aim of addressing this issue by providing a comprehensive review of the research on polypropylene thin film materials that exhibit high dielectric stability and high energy storage density under extreme conditions. These conditions include mixing and doping, surface modification, designing new molecular structures, and constructing multilayers. This study analyzes how polypropylene’s dielectric properties can be enhanced. It reviews the impacts of processing on the dielectric properties of biaxially oriented polypropylene and the underlying mechanisms. The paper is concluded with a summary of the current research progress and shortcomings in industrial production and performance, as well as discussions of future prospects. It offers valuable references for enhancing the dielectric properties of biaxially oriented polypropylene films and optimizing film processing.
ISSN:1420-3049

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