将自组装界面（SEI）集成到用于超稳定硅阳极的层状导电聚合物涂层中。

Integrating SEI into Layered Conductive Polymer Coatings for Ultrastable Silicon Anodes.

作者信息

Pan Siyuan, Han Junwei, Wang Yiqiao, Li Zhenshen, Chen Fanqi, Guo Yong, Han Zishan, Xiao Kefeng, Yu Zhichun, Yu Mengying, Wu Shichao, Wang Da-Wei, Yang Quan-Hong

机构信息

Nanoyang Group, State Key Laboratory of Chemical Engineering, School of Chemical Engineering and Technology, Tianjin University, Tianjin, 300350, China.

Haihe Laboratory of Sustainable Chemical Transformations, Tianjin, 300192, China.

出版信息

Adv Mater. 2022 Aug;34(31):e2203617. doi: 10.1002/adma.202203617. Epub 2022 Jun 30.

DOI:10.1002/adma.202203617

PMID:35679574

Abstract

Tackling the huge volume expansion of silicon (Si) anode desires a stable solid electrolyte interphase (SEI) to prohibit the interfacial side reactions. Here, a layered conductive polyaniline (LCP) coating is built on Si nanoparticles to achieve high areal capacity and long lifespan. The conformal LCP coating stores electrolyte in interlamination spaces and directs an in situ formation of LCP-integrated hybrid SEI skin with uniform distribution of organic and inorganic components, enhancing the flexibility of the SEI to buffer the volume changes and maintaining homogeneous ion transport during cycling. As a result, the Si anode shows a remarkable cycling stability under high areal capacity (≈3 mAh cm ) after 150 cycles and good rate performance of 942 mAh g at 5 A g . This work demonstrates the great potential of regulating the SEI properties by a layered polymer-directing SEI formation for the mechanical and electrochemical stabilization of Si anodes.

摘要

解决硅（Si）阳极巨大的体积膨胀问题需要一种稳定的固体电解质界面（SEI）来抑制界面副反应。在此，在硅纳米颗粒上构建了一种层状导电聚苯胺（LCP）涂层，以实现高面积容量和长寿命。保形的LCP涂层将电解质存储在层间空间中，并引导原位形成具有有机和无机成分均匀分布的LCP集成混合SEI皮，增强了SEI的柔韧性以缓冲体积变化，并在循环过程中保持均匀的离子传输。结果，硅阳极在150次循环后在高面积容量（≈3 mAh cm ）下表现出显著的循环稳定性，在5 A g 时具有942 mAh g 的良好倍率性能。这项工作证明了通过层状聚合物引导SEI形成来调节SEI性能对于硅阳极的机械和电化学稳定具有巨大潜力。

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将自组装界面（SEI）集成到用于超稳定硅阳极的层状导电聚合物涂层中。

Integrating SEI into Layered Conductive Polymer Coatings for Ultrastable Silicon Anodes.

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