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通过原位聚合构建坚固的聚合物/二维TiCT固态电解质界面,用于高容量、长寿命且无枝晶的锂金属负极。

Constructing robust polymer/two-dimensional TiCT solid-state electrolyte interphase via in-situ polymerization for high-capacity long-life and dendrite-free lithium metal anodes.

作者信息

Huang Tao, Xiong Wei, Ye Xue, Huang Zhencheng, Feng Yuqing, Liang Jianneng, Ye Shenghua, Huang Shaoluan, Li Yongliang, Ren Xiangzhong, Ouyang Xiaoping, Zhang Qianling, Liu Jianhong

机构信息

Graphene Composite Research Center, College of Chemistry and Environmental Engineering, Shenzhen University, 518060, PR China.

Graphene Composite Research Center, College of Chemistry and Environmental Engineering, Shenzhen University, 518060, PR China; Institute of Information Technology, Shenzhen Institute of Information Technology, Shenzhen 518172, PR China.

出版信息

J Colloid Interface Sci. 2022 Dec 15;628(Pt B):583-594. doi: 10.1016/j.jcis.2022.08.101. Epub 2022 Aug 17.

DOI:10.1016/j.jcis.2022.08.101
PMID:36027769
Abstract

We constructed an artificial polymer/two-dimensional TiCT (MXene) solid electrolyte interphase (SEI) on a Li metal surface via an in-situ polymerization strategy. The polymer layer provides excellent interface contact and outstanding adaptability for the volume expansion of Li metal, decreasing interface impedance. On the other hand, the two-dimensional MXene with a low Li nucleation energy barrier is beneficial for uniform Li deposition and restraint of interfacial side reactions. In this work, a dense and durable MXene-integrated SEI between the Li metal anode and solid-state electrolyte (SSE) interface is constructed to render the Li/SSE/Li cell to maintain a stable polarization voltage of approximately 50 mV at a capacity of 0.50 mAh cm for over 1000 h. It enables the Li/SSE/LiFePO cell to deliver a capacity of 130.1 mAh g at 1C with a capacity retention of 91.4% after 900 cycles. Therefore, we believe that this facile in-situ polymerization method for constructing a layer of polymer/MXene SEI at the interface between Li metal anodes and SSE can promote the practical applications of Li metal batteries.

摘要

我们通过原位聚合策略在锂金属表面构建了一种人工聚合物/二维TiCT(MXene)固体电解质界面(SEI)。聚合物层为锂金属的体积膨胀提供了优异的界面接触和出色的适应性,降低了界面阻抗。另一方面,具有低锂成核能垒的二维MXene有利于锂的均匀沉积并抑制界面副反应。在这项工作中,在锂金属阳极与固态电解质(SSE)界面之间构建了致密且耐用的集成MXene的SEI,以使Li/SSE/Li电池在0.50 mAh cm的容量下保持约50 mV的稳定极化电压超过1000小时。它使Li/SSE/LiFePO电池在1C下能够提供130.1 mAh g的容量,在900次循环后容量保持率为91.4%。因此,我们认为这种在锂金属阳极与SSE界面构建一层聚合物/MXene SEI的简便原位聚合方法可以促进锂金属电池的实际应用。

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