凹版印刷在锂离子电池制造中的应用综述

IF 4.6 4区 化学 Q2 ELECTROCHEMISTRY Batteries Pub Date : 2023-10-27 DOI:10.3390/batteries9110535
Maria Montanino, Giuliano Sico
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引用次数: 0

摘要

由于印刷电池在我们日常生活中的应用,例如便携式和可穿戴电子产品,生物医药和物联网(IoT),人们对印刷电池的兴趣正在增长。印刷技术提供的主要优点是灵活性、可定制性、易于生产、大面积和高可扩展性。在各种印刷技术中,凹版印刷以其高质量、高速度的特点,成为功能层工业生产中最具吸引力的印刷技术。迄今为止,尽管这种技术有很多优点,但很少有人对其进行研究,特别是在能源领域,因为使用稀释油墨很难获得功能性和足够的质量负载。本文对近年来印刷锂离子电池的研究进展进行了综述和讨论。提出了一种基于毛细管数控制油墨配方和工艺的方法,以获得高印刷质量和层功能。研究发现,当用作薄膜时,对每种特定材料及其性能都有特定的关注。考虑到所有这些问题,凹印可以提供高性能层。多层方法可以实现所需的层质量加载,并且在体积均匀性方面具有优势。这样的结果可以促进凹印在印刷电池领域的未来工业应用。
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Gravure Printing for Lithium-Ion Batteries Manufacturing: A Review
Interest in printed batteries is growing due to their applications in our daily lives, e.g., for portable and wearable electronics, biomedicals, and internet of things (IoT). The main advantages offered by printing technologies are flexibility, customizability, easy production, large area, and high scalability. Among the printing techniques, gravure is the most appealing for the industrial manufacture of functional layers thanks to its characteristics of high quality and high speed. To date, despite its advantages, such technology has been little investigated, especially in the field of energy since it is difficult to obtain functionality and adequate mass loading using diluted inks. In this review, the recent results for printed lithium-ion batteries are reported and discussed. A methodology for controlling the ink formulation and process based on the capillary number was proposed to obtain high printing quality and layer functionality. Specific concerns were found to play a fundamental role for each specific material and its performance when used as a film. Considering all such issues, gravure can provide high performance layers. A multilayer approach enables the desired layer mass loading to be achieved with advantages in terms of bulk homogeneity. Such results can boost the future industrial employment of gravure printing in the field of printed batteries.
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来源期刊
Batteries
Batteries Energy-Energy Engineering and Power Technology
CiteScore
4.00
自引率
15.00%
发文量
217
审稿时长
7 weeks
期刊最新文献
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