郭玉国教授团队EER最新综述︱可充锂电池用聚合物基复合电解质最新研究进展 最新综述 近年来发现,使用常规有机液体电解质的锂电池存在一系列安全问题。因此,得益于其形态多样性、灵活性、低重量和低加工成本的优势,固态聚合物电解质正成为目前锂电池用有机液体电解质极有潜力的替代对象。然而这些固体聚合物电解质面临着离子扩散性和机械性能不佳的挑战。为了解决这些问题并提高其综合性能,研究人员将聚合物与其他组分相协调,包括液体电解质、聚合物和无机填料,形成聚合物基复合电解质。本文综述了聚合物基复合电解质的最新进展,包括聚合物/液体混合电解质,聚合物/聚合物配位电解质和聚合物/无机复合电解质;探讨了每种复合策略的优点、协同机制、设计方法以及发展和前景;论述了聚合物基复合电解质的多种设计策略,并为今后高性能固体聚合物电解质的研究和开发奠定基础。 Recent Advancements in Polymer-Based Composite Electrolytesfor Rechargeable Lithium Batteries Abstract In recent years, lithium batteries using conventional organic liquid electrolytes have been found to possess a series of safetyconcerns. Because of this, solid polymer electrolytes, benefiting from shape versatility, flexibility, low-weight and lowprocessing costs, are being investigated as promising candidates to replace currently available organic liquid electrolytes inlithium batteries. However, the inferior ion diffusion and poor mechanical performance of these promising solid polymerelectrolytes remain a challenge. To resolve these challenges and improve overall comprehensive performance, polymers arebeing coordinated with other components, including liquid electrolytes, polymers and inorganic fillers, to form polymer-basedcomposite electrolytes. In this review, recent advancements in polymer-based composite electrolytes including polymer/liquid hybrid electrolytes, polymer/polymer coordinating electrolytes and polymer/inorganic composite electrolytes arereviewed; exploring the benefits, synergistic mechanisms, design methods, and developments and outlooks for each individualcomposite strategy. This review will also provide discussions aimed toward presenting perspectives for the strategicdesign of polymer-based composite electrolytes as well as building a foundation for the future research and development ofhigh-performance solid polymer electrolytes. Biographies of authors Shuang‑Jie Tan (first author) received his B.S. degree in Chemistry from Wuhan University in 2016. He is currently a Ph.D. candidate under the supervision of Prof. Yu-Guo Guo at the Institute of Chemistry, Chinese Academy of Sciences (ICCAS). His research focuses on rechargeable solid lithium metal batteries. Xian‑Xiang Zeng received his Ph.D. degree from University of Chinese Academy of Sciences, 2017. Currently, he works at Hunan Agricultural University and his research interests involve the design and fabrication of electrode materials and solid electrolytes, and their applications in advanced energy storage systems and flexible devices. Qiang Ma is currently a graduate student majoring in Applied Chemistry at Hunan Agricultural University. His research centers on advanced materials for vanadium redox flow batteries and solid lithium batteries. Xiong‑Wei Wu is an associate Professor at Hunan Agricultural University. He received his Ph.D. degree from Central South University in 2011. His research focuses on rechargeable batteries for large-scale energy storage, especially redox flow batteries and lithium batteries. Yu‑Guo Guo(corresponding author) is a Professor of Chemistry at ICCAS. He received his Ph.D. in Physical Chemistry from ICCAS in 2004. He worked at the Max Planck Institute for Solid State Research at Stuttgart (Germany) first as a Guest Scientist and then a Staff Scientist from 2004 to 2007. He joined ICCAS as a full professor in 2007. His research focuses on nanostructured energy materials and electrochemical energy storage devices, such as lithium-ion, lithium-sulfur, solid lithium batteries and sodium-ion batteries. 文章信息 文章将发表于 EER 期刊 2018 年第 1 卷第 2 期,详情请阅读全文,可免费下载。 文章题目: Recent Advancements in Polymer-Based Composite Electrolytes for Rechargeable Lithium Batteries 引用信息: Tan, SJ., Zeng, XX., Ma, Q. et al. Electrochem. Energ. Rev. (2018). https://doi.org/10.1007/s41918-018-0011-2 关键词: 固态电池,固体电解质,聚合物电解质,锂阳极,界面 全文链接: https://link.springer.com/article/10.1007/s41918-018-0011-2/fulltext.html 原文(扫描或长按二维码,识别后直达原文页面): 杂志介绍 Electrochemical Energy Reviews ( 《电化学能源评论》,简称 EER) ,该期刊旨在及时反映国际电化学能源转换与存储领域的最新科研成果和动态,促进国内、国际的学术交流,设有专题综述和一般综述栏目。 EER 是国际上第一本专注电化学能源的综述性期刊。 EER 覆盖化学能源转换与存储所有学科,包括燃料电池,锂电池,金属 - 空气电池,超级电容器,制氢 - 储氢, CO 2 转换等。 EER 为季刊,每年 3 月、 6 月、 9 月以及 12 月出版。 创刊号将在 2018 年 3 月正式出版。 欢迎关注和投稿 期刊执行严格的同行评议,提供英文润色、图片精修、封面图片设计等服务。出版周期3个月左右,高水平论文可加快出版。欢迎关注和投稿。 E-mail: eer@oa.shu.edu.cn Website: http://www.springer.com/chemistry /electrochemistry/journal/41918 http://www.eer.shu.edu.cn Tel.: 86-21-66136010 长按/扫描关注EER微信公众号
标签: 聚合物电解质
