Hanchen Wang , Yingtian Liu , Mingze Jiang , Qiang Zhang
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引用次数: 0
Abstract
The demand for high safety and high reliability lithium-ion batteries (LIBs) is strongly considered for practical applications. However, due to their inherent self-discharge properties or abuse, LIBs face the threat of over-discharge, which induces premature end of life and increased risk of thermal runaway. In addition, a strong demand for batteries with zero-volt storage is strongly considered for aerospace and implantable medical devices. In this review, we firstly introduce the necessity and the importance of over-discharge and zero-volt protection for LIBs. The mechanism of damage to the Cu current collectors and SEI induced by potential changes during over-discharge is presented. The current over-discharge protection strategies based on whether the zero-crossing potential of the electrodes is summarized. Finally, the fresh insights into the material design of cathode prelithiation additives are presented from the perspective of over-discharge protection.
在实际应用中,对高安全性和高可靠性锂离子电池(LIBs)的需求日益强烈。然而,由于其固有的自放电特性或滥用,锂离子电池面临着过放电的威胁,这会导致电池过早报废,并增加热失控的风险。此外,航空航天和植入式医疗设备对零伏特存储电池的需求也非常强烈。在本综述中,我们首先介绍了锂离子电池过放电和零伏保护的必要性和重要性。介绍了过放电过程中电位变化对铜集流器和 SEI 造成损害的机理。总结了当前基于电极过零电位的过放电保护策略。最后,从过放电保护的角度介绍了阴极预锂化添加剂材料设计的新见解。
期刊介绍:
The Journal of Energy Chemistry, the official publication of Science Press and the Dalian Institute of Chemical Physics, Chinese Academy of Sciences, serves as a platform for reporting creative research and innovative applications in energy chemistry. It mainly reports on creative researches and innovative applications of chemical conversions of fossil energy, carbon dioxide, electrochemical energy and hydrogen energy, as well as the conversions of biomass and solar energy related with chemical issues to promote academic exchanges in the field of energy chemistry and to accelerate the exploration, research and development of energy science and technologies.
This journal focuses on original research papers covering various topics within energy chemistry worldwide, including:
Optimized utilization of fossil energy
Hydrogen energy
Conversion and storage of electrochemical energy
Capture, storage, and chemical conversion of carbon dioxide
Materials and nanotechnologies for energy conversion and storage
Chemistry in biomass conversion
Chemistry in the utilization of solar energy
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