Artificial Solid Electrolyte Interphase Coating to Reduce Lithium Trapping in Silicon Anode for High Performance Lithium-Ion Batteries

Ai Qing; Li Deping; Guo Jianguang; Hou Guangmei; Sun Qing; Sun Qidi; Xu Xiaoyan; Zhai Wei; Zhang Lin; Feng Jinkui; Si Pengchao; Lou Jun; Ci Lijie

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Artificial Solid Electrolyte Interphase Coating to Reduce Lithium Trapping in Silicon Anode for High Performance Lithium-Ion Batteries

机译：人工固体电解质相互关节涂层，以减少高性能锂离子电池硅阳极锂捕获

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The investigation indicates that lithium trapping in Si anode of lithium-ion battery is one of the key factors to affect the coulombic efficiency and capacity decay during high rate cycling. Here, it is demonstrated that LiAlO2 as an artificial solid electrolyte interphase (SEI) on commercial Si nanoparticles can effectively address the lithium trapping issues of Si anode to improve its electrochemical performance. By investigating the structure evolution of Si with in situ Raman and ex situ X-ray diffraction measurements, it is demonstrated that artificial solid electrolyte interphase layer significantly improves the kinetics of lithium alloying/dealloying process due to its better electrochemical performance comparing to the natural SEI. Owing to the artificial SEI coating, the Si anode demonstrates a superior electrochemical performance, which offers a specific capacity of 1106 mAh g(-1) at a current density of 4000 mA g(-1) with capacity retention of 90.9% after 500 cycles.

机译：调查表明，锂离子电池SI阳极锂俘获是影响高速循环期间库仑效率和容量衰减的关键因素之一。这里，证明LiAlo2作为商业Si纳米颗粒上的人工固体电解质间（SEI）可以有效地解决Si阳极的锂捕获问题以提高其电化学性能。通过以原位拉曼和出原位X射线衍射测量研究Si的结构演变，证明人造固体电解质相互作用层由于其更好的电化学性能而与天然SEI相比，锂合金/蓄电池的动力学显着改善。由于人工SEI涂层，Si阳极展示了优异的电化学性能，其在500次循环后的电流密度为4000 mA g（-1）的电流密度，提供了1106mAhg（-1）的特定容量。。

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来源
《Advanced materials interfaces》 |2019年第21期|共9页
作者
Ai Qing; Li Deping; Guo Jianguang; Hou Guangmei; Sun Qing; Sun Qidi; Xu Xiaoyan; Zhai Wei; Zhang Lin; Feng Jinkui; Si Pengchao; Lou Jun; Ci Lijie;
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作者单位

Shandong Univ Sch Mat Sci &

Engn Key Lab Liquid Solid Struct Evolut &

Proc Mat Minist Educ SDU &

Rice Joint Ctr Carbon Nanomat Jinan 250061 Shandong Peoples R China;

Shandong Univ Sch Mat Sci &

Engn Key Lab Liquid Solid Struct Evolut &

Proc Mat Minist Educ SDU &

Rice Joint Ctr Carbon Nanomat Jinan 250061 Shandong Peoples R China;

Shandong Univ Sch Mat Sci &

Engn Key Lab Liquid Solid Struct Evolut &

Proc Mat Minist Educ SDU &

Rice Joint Ctr Carbon Nanomat Jinan 250061 Shandong Peoples R China;

Shandong Univ Sch Mat Sci &

Engn Key Lab Liquid Solid Struct Evolut &

Proc Mat Minist Educ SDU &

Rice Joint Ctr Carbon Nanomat Jinan 250061 Shandong Peoples R China;

Shandong Univ Sch Mat Sci &

Engn Key Lab Liquid Solid Struct Evolut &

Proc Mat Minist Educ SDU &

Rice Joint Ctr Carbon Nanomat Jinan 250061 Shandong Peoples R China;

Shandong Univ Sch Mat Sci &

Engn Key Lab Liquid Solid Struct Evolut &

Proc Mat Minist Educ SDU &

Rice Joint Ctr Carbon Nanomat Jinan 250061 Shandong Peoples R China;

Shandong Univ Sch Mat Sci &

Engn Key Lab Liquid Solid Struct Evolut &

Proc Mat Minist Educ SDU &

Rice Joint Ctr Carbon Nanomat Jinan 250061 Shandong Peoples R China;

Shandong Univ Sch Mat Sci &

Engn Key Lab Liquid Solid Struct Evolut &

Proc Mat Minist Educ SDU &

Rice Joint Ctr Carbon Nanomat Jinan 250061 Shandong Peoples R China;

Shandong Univ Sch Mat Sci &

Engn Key Lab Liquid Solid Struct Evolut &

Proc Mat Minist Educ SDU &

Rice Joint Ctr Carbon Nanomat Jinan 250061 Shandong Peoples R China;

Shandong Univ Sch Mat Sci &

Engn Key Lab Liquid Solid Struct Evolut &

Proc Mat Minist Educ SDU &

Rice Joint Ctr Carbon Nanomat Jinan 250061 Shandong Peoples R China;

Shandong Univ Sch Mat Sci &

Engn Key Lab Liquid Solid Struct Evolut &

Proc Mat Minist Educ SDU &

Rice Joint Ctr Carbon Nanomat Jinan 250061 Shandong Peoples R China;

Shandong Univ Sch Mat Sci &

Engn Key Lab Liquid Solid Struct Evolut &

Proc Mat Minist Educ SDU &

Rice Joint Ctr Carbon Nanomat Jinan 250061 Shandong Peoples R China;

Shandong Univ Sch Mat Sci &

Engn Key Lab Liquid Solid Struct Evolut &

Proc Mat Minist Educ SDU &

Rice Joint Ctr Carbon Nanomat Jinan 250061 Shandong Peoples R China;

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正文语种 eng
中图分类特种结构材料;
关键词
artificial solid electrolyte interphases; in situ Raman measurements; LiAlO(2)coating; lithium trapping; silicon anodes;

机译：人造固体电解质互相;原位拉曼测量;Lialo（2）涂层;锂俘获;硅阳极;

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专利

1. Artificial Solid Electrolyte Interphase Coating to Reduce Lithium Trapping in Silicon Anode for High Performance Lithium-Ion Batteries [J] . Ai Qing, Li Deping, Guo Jianguang, Advanced materials interfaces . 2019,第21期

机译：人工固体电解质相互关节涂层，以减少高性能锂离子电池硅阳极锂捕获
2. Artificial Solid Electrolyte Interphase Acting as "Armor" to Protect the Anode Materials for High-performance Lithium-ion Battery [J] . WANG Haitao, TANG Yongbing 高等学校化学研究（英文版） . 2020,第003期
3. Building stable solid electrolyte interphases (SEI) for microsized silicon anode and 5V-class cathode with salt engineered nonflammable phosphate-based lithium-ion battery electrolyte [J] . Zhang Kai, Tian Yuan, Wei Chuanliang, Applied Surface Science . 2021,第Jula1期

机译：为微硅阳极和5V级阴极构建稳定的固体电解质晶间（SEI），用盐工程的不易燃磷酸锂离子电池电解液
4. Modified Solid Electrolyte Interphase of Silicon Nanowire Anodes for Lithium-Ion Batteries [C] . W. Xu, S.S.S. Vegunta, J. C. Flake ECS Meeting . 2011

机译：用于锂离子电池的硅纳米线阳极的改性固体电解质相互作用
5. Improving the Performance of Lithium-Ion Batteries Through a Multi-Objective Investigation and Optimization of the Solid Electrolyte Interphase Microstructure [D] . ?Guan, Pengjian 2020

机译：通过多目标调查和优化固体电解质间微结构的改善锂离子电池的性能
6. Controlling electric potential to inhibit solid-electrolyte interphase formation on nanowire anodes for ultrafast lithium-ion batteries [O] . Won Jun Chang, Su Han Kim, Jiseon Hwang, -1

机译：控制电位以抑制超快锂离子电池纳米线阳极上的固体电解质界面形成
7. Yolk-shell silicon-mesoporous carbon anode with compact solid electrolyte interphase film for superior lithium-ion batteries [O] . Yang, Jianping, Wang, Yunxiao, Chou, Shulei, 2015

机译：卵黄壳硅介孔碳阳极，带有致密的固体电解质中间膜，可用于高级锂离子电池

Artificial Solid Electrolyte Interphase Coating to Reduce Lithium Trapping in Silicon Anode for High Performance Lithium-Ion Batteries

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