Cover Image, Volume 1, Number 1, August 2023

Electron Pub Date : 2023-08-31 DOI:10.1002/elt2.10
Dongjiang Chen, Yuanpeng Liu, Chao Feng, Yuhui He, Shengyu Zhou, Botao Yuan, Yunfa Dong, Haodong Xie, Guangfeng Zeng, Jiecai Han, Weidong He
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引用次数: 0

Abstract

Lithium-ion battery with high Li+ flux transferability is a key direction in the field of clean energy. However, with small thickness, commercial polyolefin separators own low porosity to ensure sufficient thermomechanical properties, resulting in tortuous and enlarged Li+ diffusion pathways that induce large overpotentials and detrimental dendrite growth. This research (DOI: 10.1002/elt2.1) introduces a ∼3-μm ultralight PTFE matrix (UP3D) separator and describes its design principle and mechanism. Results show that the UP3D separator has a high Li+ flux transferability and strong mechanical properties, which reflects its promising potential in high-flux battery applications.

Abstract Image

封面图片,第1卷第1期,2023年8月
具有高Li+通量可转移性的锂离子电池是清洁能源领域的一个关键方向。然而,由于厚度较小,商业聚烯烃隔膜具有较低的孔隙率,以确保足够的热机械性能,导致曲折和扩大的Li+扩散路径,从而导致大的过电位和有害的枝晶生长。本研究(DOI:10.1002/elt2.1)介绍了一种~3-μm超轻型PTFE基体(UP3D)分离器,并描述了其设计原理和机理。结果表明,UP3D隔膜具有高的Li+通量转移性和强的机械性能,这反映了其在高通量电池应用中的良好潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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