Aerosol deposition technology and its applications in batteries

IF 9.9 2区材料科学 Q1 Engineering Nano Materials Science Pub Date : 2024-02-01 DOI:10.1016/j.nanoms.2023.11.002

Xinyu Wang , Ramon Alberto Paredes Camacho , Xiaoyu Xu , Yumei Wang , Yi Qiang , Hans Kungl , Ruediger-A. Eichel , Yunfeng Zhang , Li Lu

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Abstract

Aerosol deposition (AD) method is a kind of additive manufacturing technology for fabricating dense films such as metals and ceramics at room temperature. It resolves the challenge of integrating ceramic films onto temperature-sensitive substrates, including metals, glasses, and polymers. It should be emphasized that the AD is a spray coating technology that uses powder without thermal assistance to generate films with high density. Compared to the traditional sputter-based approach, the AD shows several advantages in efficiency, convenience, better interfacial bonding and so on. Therefore, it opens some possibilities to the field of batteries, especially all-solid-state batteries (ASSBs) and draws much attention not only for research but also for large scale applications.

The purpose of this work is to provide a critical review on the science and technology of AD as well as its applications in the field of batteries. The process, mechanism and effective parameters of AD, and recent developments in AD applications in the field of batteries will be systematically reviewed so that a trend for AD will be finally provided.

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气溶胶沉积技术及其在电池中的应用

气溶胶沉积法(AD)是一种在室温下制备金属、陶瓷等致密薄膜的增材制造技术。它解决了将陶瓷薄膜集成到温度敏感基板上的挑战，包括金属、玻璃和聚合物。需要强调的是，AD是一种使用粉末而不需要热辅助来生成高密度薄膜的喷涂技术。与传统的基于溅射的方法相比，该方法在效率高、方便、界面结合性好等方面具有优势。因此，它为电池领域，特别是全固态电池(assb)开辟了一些可能性，不仅受到研究的关注，而且受到大规模应用的关注。本文旨在对AD的科学技术及其在电池领域的应用进行综述。本文将系统地综述AD的工艺、机理和有效参数，以及AD在电池领域的最新应用进展，从而展望AD的发展趋势。

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来源期刊

Nano Materials Science Engineering-Mechanics of Materials

CiteScore

20.90

自引率

3.00%

发文量

294

审稿时长

9 weeks

期刊介绍： Nano Materials Science (NMS) is an international and interdisciplinary, open access, scholarly journal. NMS publishes peer-reviewed original articles and reviews on nanoscale material science and nanometer devices, with topics encompassing preparation and processing; high-throughput characterization; material performance evaluation and application of material characteristics such as the microstructure and properties of one-dimensional, two-dimensional, and three-dimensional nanostructured and nanofunctional materials; design, preparation, and processing techniques; and performance evaluation technology and nanometer device applications.