Highly textured and crystalline materials for rechargeable Li-ion batteries

Battery Energy Pub Date : 2023-05-29 DOI:10.1002/bte2.20230010

Min-Ju Choi, Ji Hyun Baek, Jae Young Kim, Ho Won Jang

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引用次数: 4

Abstract

To build an environment-friendly energy-based society, it is important to develop stable and high-performance batteries as an energy storage system. However, there are still unresolved challenges associated with safety issues, slow kinetics, and lifetime. To overcome these problems, it is essential to understand the battery systems including cathode, electrolyte, and anode. Using a well-controlled material system such as epitaxial films, textured films, and single crystals can be a powerful strategy to investigate the relationship between microstructural and electrochemical properties. In this review, we discuss the need for research with well-controlled materials system and recent progress in the well-controlled cathode, solid-state-electrolyte, and anode materials for Li-ion batteries. Enhanced stability and electrochemical performance due to the facilitation of prolonged and endured Li-ion transport in facet-controlled battery materials are highlighted. Finally, the challenges and future directions utilizing the well-controlled battery system for high-performance battery are proposed.

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用于可充电锂离子电池的高纹理和结晶材料

为了建设一个环境友好的能源社会，开发稳定、高性能的电池作为储能系统至关重要。然而，仍然存在与安全问题、缓慢动力学和寿命相关的未解决的挑战。为了克服这些问题，必须了解电池系统，包括阴极、电解质和阳极。使用良好控制的材料系统，如外延膜、纹理膜和单晶，可以成为研究微观结构和电化学性能之间关系的有力策略。在这篇综述中，我们讨论了研究良好控制材料体系的必要性，以及用于锂离子电池的良好控制阴极、固态电解质和阳极材料的最新进展。由于在面控电池材料中促进了长时间和持久的锂离子传输，因此增强了稳定性和电化学性能。最后，提出了利用良好控制的电池系统进行高性能电池的挑战和未来方向。

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来源期刊

Battery Energy

CiteScore

4.60

自引率

0.00%

发文量