Preparation and properties of PI@Cu composite films current collectors under silver catalysis for lithium-ion batteries

IF 8.3 2区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY ACS Applied Materials & Interfaces Pub Date : 2024-09-22 DOI:10.1016/j.surfin.2024.105156

Xuanle Chen , Xiaochuan Liu , Nan Ye , Yu Zhan , Yudong Luo , Jiancheng Tang , Haiou Zhuo

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Abstract

As a high-performance polymer, polyimide (PI) exhibits excellent mechanical properties, thermal stability, electrical insulation, and chemical stability. However, the electrically insulating properties of PI limits its application in fields that require high electrical conductivity, so surface metallization is necessary. Conventional metallization methods make it challenging to achieve PI@Cu composite films with both good electrical conductivity and excellent mechanical properties. In this paper, the alkaline hydrolysis, silver ion activation, and pre-reduction methods were employed, followed by electroless plating, to successfully prepare a tightly bonded copper cladding layer on the PI film. The lowest resistivity of the prepared PI@Cu composite film is 2.53×10^–8 Ω·m, and the area density is as low as 1.22 mg/cm². This composite film is expected to be utilized as an anode collector for lithium-ion batteries instead of pure Cu foil. Furthermore, it effectively reduces the mass ratio of inactive substances in the electrode to enhance the energy density of the battery.

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银催化下用于锂离子电池的 PI@Cu 复合薄膜集流器的制备及其特性

作为一种高性能聚合物，聚酰亚胺（PI）具有出色的机械性能、热稳定性、电绝缘性和化学稳定性。然而，聚酰亚胺的电绝缘特性限制了它在需要高导电性的领域的应用，因此必须进行表面金属化。传统的金属化方法很难使 PI@Cu 复合薄膜同时具有良好的导电性和优异的机械性能。本文采用碱性水解、银离子活化和预还原方法，然后进行无电解电镀，成功地在 PI 薄膜上制备了紧密结合的覆铜层。制备的 PI@Cu 复合薄膜的最低电阻率为 2.53×10-8 Ω-m，面积密度低至 1.22 mg/cm2。这种复合薄膜有望取代纯铜箔，用作锂离子电池的负极集电体。此外，它还能有效降低电极中非活性物质的质量比，从而提高电池的能量密度。

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来源期刊

ACS Applied Materials & Interfaces 工程技术-材料科学：综合

CiteScore

16.00

自引率

6.30%

发文量

4978

审稿时长

1.8 months

期刊介绍： ACS Applied Materials & Interfaces is a leading interdisciplinary journal that brings together chemists, engineers, physicists, and biologists to explore the development and utilization of newly-discovered materials and interfacial processes for specific applications. Our journal has experienced remarkable growth since its establishment in 2009, both in terms of the number of articles published and the impact of the research showcased. We are proud to foster a truly global community, with the majority of published articles originating from outside the United States, reflecting the rapid growth of applied research worldwide.