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Determination of the Solid Electrolyte Interphase Structure Grown on a Silicon Electrode Using a Fluoroethylene Carbonate Additive

机译：碳酸氟乙烯酯测定硅电极上生长的固体电解质相间结构

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In this work we explore how an electrolyte additive (fluorinated ethylene carbonate – FEC) mediates the thickness and composition of the solid electrolyte interphase formed over a silicon anode in situ as a function of state-of-charge and cycle. We show the FEC condenses on the surface at open circuit voltage then is reduced to C-O containing polymeric species around 0.9 V (vs. Li/Li⁺). The resulting film is about 50 Å thick. Upon lithiation the SEI thickens to 70 Å and becomes more organic-like. With delithiation the SEI thins by 13 Å and becomes more inorganic in nature, consistent with the formation of LiF. This thickening/thinning is reversible with cycling and shows the SEI is a dynamic structure. We compare the SEI chemistry and thickness to 280 Å thick SEI layers produced without FEC and provide a mechanism for SEI formation using FEC additives.

机译：在这项工作中，我们探索了一种电解质添加剂（氟化碳酸亚乙酯– FEC）如何介导在硅阳极上原位形成的固态电解质中间相的厚度和组成，这与电荷状态和循环的函数有关。我们显示，FEC在开路电压下凝结在表面上，然后被还原为含C-O的约0.9 V（相对于Li / Li ^{+ ）的聚合物。所得的膜约50厚。锂化后，SEI增厚至70Å，并变得更有机。随着去锂化，SEI变薄了13Å，并且在本质上变得更加无机，这与LiF的形成相一致。这种增稠/稀化是循环可逆的，表明SEI是动态结构。我们将SEI的化学成分和厚度与没有FEC的280ÅSEI层进行了比较，并提供了使用FEC添加剂形成SEI的机理。}

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期刊名称 Scientific Reports
作者
Gabriel M. Veith; Mathieu Doucet; Robert L. Sacci; Bogdan Vacaliuc; J. Kevin Baldwin; James F. Browning;
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年(卷),期 -1(7),-1
年度 -1
页码 6326
总页数 15
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1. The Effect of Fluoroethylene Carbonate as an Additive on the Solid Electrolyte Interphase on Silicon Lithium-Ion Electrodes [J] . Schroder Kjell, Avarado Judith, Yersak Thomas A., Chemistry of Materials: A Publication of the American Chemistry Society . 2015,第16期

机译：碳酸氟乙烯酯对硅锂离子电极上固体电解质界面的影响
2. Identifying the Structural Basis for the Increased Stability of the Solid Electrolyte Interphase Formed on Silicon with the Additive Fluoroethylene Carbonate [J] . Jin Yanting, Kneusels Nis Julian H., Magusin Pieter C.M.M., Journal of the American Chemical Society . 2017,第42期

机译：确定添加碳酸氟乙烯酯在硅上形成的固体电解质中间相的稳定性增加的结构基础
3. Fluoroethylene Carbonate and Vinylene Carbonate Reduction: Understanding Lithium-Ion Battery Electrolyte Additives and Solid Electrolyte Interphase Formation [J] . Michan Alison L., Parirnalam Bharathy. S., Leskes Michal, Chemistry of Materials: A Publication of the American Chemistry Society . 2016,第22期

机译：碳酸氟亚乙酯和碳酸亚乙烯酯的还原：了解锂离子电池电解质添加剂和固体电解质的界面形成
4. Fluoroethylene Carbonate as an Electrolyte Additive for Improving the Performance of Mesocarbon Microbead Electrode [C] . Zhoucheng Wang, Jie Xu, Wan-Hao Yao, Symposium on rechargeable lithium and lithium ion batteries;Meeting of the Electrochemical Society . 2012

机译：碳酸氟乙烯酯作为改善中碳微珠电极性能的电解质添加剂
5. The Impact of Nanostructured Templates and Additives on the Performance of Si Electrodes and Solid Polymer Electrolytes for Advanced Battery Applications [D] . Fan, Juichin. 2018

机译：纳米结构模板和添加剂对高级电池应用中硅电极和固体聚合物电解质性能的影响
6. New Insights into the Electroreduction of Ethylene Sulfite as Electrolyte Additive for Facilitating Solid Electrolyte Interphase of Lithium Ion Battery [O] . Youmin Sun, Yixuan Wang -1

机译：亚硫酸亚乙酯作为电解质添加剂的电还原促进锂离子电池固态电解质相的新见解
7. Effect of Fluoroethylene Carbonate Additives on the Initial Formation of the Solid Electrolyte Interphase on an Oxygen-Functionalized Graphitic Anode in Lithium-Ion Batteries [O] . Nadia N. Intan, Jim Pfaendtner 2021

机译：碳酸亚碳酸亚碳酸亚乙酯添加剂对锂离子电池氧官能化石墨阳极对固体电解质相互作用的影响

Determination of the Solid Electrolyte Interphase Structure Grown on a Silicon Electrode Using a Fluoroethylene Carbonate Additive

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