对聚合物进行测序以实现固态锂电池。

Sequencing polymers to enable solid-state lithium batteries.

作者信息

Han Shantao, Wen Peng, Wang Huaijiao, Zhou Yang, Gu Yu, Zhang Lu, Shao-Horn Yang, Lin Xinrong, Chen Mao

机构信息

State Key Laboratory of Molecular Engineering of Polymers, Department of Macromolecular Science, Fudan University, Shanghai, China.

Department of Materials Science and Engineering, Research Laboratory of Electronics, Department of Mechanical Engineering, Massachusetts Institute of Technology, Cambridge, MA, USA.

出版信息

Nat Mater. 2023 Dec;22(12):1515-1522. doi: 10.1038/s41563-023-01693-z. Epub 2023 Oct 16.

DOI:10.1038/s41563-023-01693-z

PMID:37845320

Abstract

Rational designs of solid polymer electrolytes with high ion conduction are critical in enabling the creation of advanced lithium batteries. However, known polymer electrolytes have much lower ionic conductivity than liquid/ceramics at room temperature, which limits their practical use in batteries. Here we show that precise positioning of designed repeating units in alternating polymer sequences lays the foundation for homogenized Li distribution, non-aggregated Li-anion solvation and sequence-assisted site-to-site ion migration, facilitating the tuning of Li conductivity by up to three orders of magnitude. The assembled all-solid-state batteries facilitate reversible and dendrite-mitigated cycling against Li metal from ambient to elevated temperatures. This work demonstrates a powerful molecular engineering means to access highly ion-conductive solid-state materials for next-generation energy devices.

摘要

设计具有高离子传导率的固体聚合物电解质对于制造先进的锂电池至关重要。然而，已知的聚合物电解质在室温下的离子电导率比液体/陶瓷低得多，这限制了它们在电池中的实际应用。在此，我们表明，在交替聚合物序列中精确排列设计的重复单元为均匀的锂分布、非聚集的锂-阴离子溶剂化以及序列辅助的位点间离子迁移奠定了基础，有助于将锂电导率调节高达三个数量级。组装的全固态电池在从环境温度到高温的条件下，能够实现对锂金属的可逆且抑制枝晶的循环。这项工作展示了一种强大的分子工程手段，可用于获取用于下一代能源设备的高离子传导固态材料。

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对聚合物进行测序以实现固态锂电池。

Sequencing polymers to enable solid-state lithium batteries.

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