Gravure Printed Composites Based on Lithium Manganese Oxide: A Study Case for Li-Ion Batteries Manufacturing

Q3 Materials Science

Macromolecular Symposia Pub Date : 2024-08-16 DOI:10.1002/masy.202400127

Maria Montanino, Claudia Paoletti, Anna De Girolamo Del Mauro, Giuliano Sico

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Abstract

Aimed by the increasing interest in the field of printed batteries, the study recently has demonstrated the possibility to successfully gravure print composites working as electrodes for Li-ion batteries. Gravure is one of the most appealing printing technique for the mass production of functional layers due to its unique ability to couple high speed and high resolution. The ink formulation is challenging because of the low viscosity ink requirement which makes difficult to obtain the proper functionality of the layer, especially in case of composite materials like electrodes, and a mass loading suitable for practical applications. Changing a material of the composite implies the study of a new gravure ink in terms of formulation and preparation process. Ruling the ink preparation can strongly decrease the process time promoting the industrial use of the gravure printing. For this reason, the study proposes a methodology, mainly based on the capillary number, able to suggest the best receipt for each specific ink. Here, a study case is reported, using lithium manganese oxide (LMO) as active material for the gravure printed cathode manufacturing. Such work gives the possibility to show the proposed methodology for ruling the ink preparation.

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基于氧化锰锂的凹版印刷复合材料：锂离子电池制造研究案例

随着人们对印刷电池领域的兴趣与日俱增，最近的研究证明了成功凹版印刷复合材料作为锂离子电池电极的可能性。凹版印刷因其兼具高速度和高分辨率的独特能力，是大规模生产功能层最有吸引力的印刷技术之一。油墨配方具有挑战性，因为对油墨的粘度要求较低，这就很难获得适当的功能层，尤其是像电极这样的复合材料，同时也很难获得适合实际应用的大量装载。要改变复合材料的材质，就必须研究新的凹印油墨配方和制备工艺。油墨制备工艺的合理化可以大大缩短工艺时间，促进凹版印刷的工业化应用。为此，该研究提出了一种主要基于毛细管数的方法，能够为每种特定油墨提出最佳收据。在此，报告了一个使用锂锰氧化物（LMO）作为活性材料进行凹版印刷阴极制造的研究案例。这项工作为展示建议的油墨制备方法提供了可能性。

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来源期刊

Macromolecular Symposia Materials Science-Polymers and Plastics

CiteScore

1.50

自引率

0.00%

发文量

226

期刊介绍： Macromolecular Symposia presents state-of-the-art research articles in the field of macromolecular chemistry and physics. All submitted contributions are peer-reviewed to ensure a high quality of published manuscripts. Accepted articles will be typeset and published as a hardcover edition together with online publication at Wiley InterScience, thereby guaranteeing an immediate international dissemination.