The Role of Binders for Water-Based Anode Dispersions in Inkjet Printing

IF 4.6 4区化学 Q2 ELECTROCHEMISTRY

Batteries Pub Date : 2023-11-15 DOI:10.3390/batteries9110557

C. G. Kolb, Alessandro Sommer, M. Lehmann, Carys-May Teixeira, Hannes Panzer, Saeed Maleksaeedi, M. F. Zaeh

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Abstract

Binders play a pivotal role in the production and the operation of lithium-ion batteries. They influence a number of key dispersion characteristics and battery parameters. In the light of growing interest in additive manufacturing technologies, binders were found to decisively govern the processability due to the induced complex non-Newtonian behavior. This paper examines the relevance of various binder derivatives for aqueous graphite dispersions that can be employed in inkjet printing. Two different carboxymethyl cellulose (CMC) derivatives with strongly deviating molecular weights were employed. The impact of the inherent polymer characteristics on the processability and the electrode characteristics were explored. Therefore, miscellaneous studies were carried out at the dispersion, the electrode, and the cell levels. The results revealed that the CMC with the lower molecular weight affected most of the studied characteristics more favorably than the counterpart with a higher molecular weight. In particular, the processability, encompassing drop formation and drop deposition, the cohesion behavior, and the electrochemical characteristics, were positively impacted by the low-molecular-weight CMC. The adhesion behavior was enhanced using the high-molecular-weight CMC. This demonstrates that the selection of a suitable binder derivative merits close attention.

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喷墨印刷中水基阳极分散体粘合剂的作用

粘合剂在锂离子电池的生产和运行中起着举足轻重的作用。粘合剂会影响一系列关键的分散特性和电池参数。鉴于人们对增材制造技术的兴趣与日俱增，人们发现粘结剂因其复杂的非牛顿行为而对加工性能起着决定性的作用。本文研究了各种粘合剂衍生物与可用于喷墨打印的水性石墨分散体的相关性。本文采用了两种不同的羧甲基纤维素（CMC）衍生物，它们的分子量相差很大。研究探讨了聚合物固有特性对加工性和电极特性的影响。因此，在分散、电极和电池层面进行了多项研究。研究结果表明，分子量较低的 CMC 比分子量较高的 CMC 对大多数研究特性的影响更为有利。特别是，低分子量 CMC 对加工性能（包括液滴形成和沉积）、粘附行为和电化学特性都有积极影响。高分子量 CMC 则增强了粘附性能。这表明，选择合适的粘合剂衍生物值得密切关注。

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