Solid electrolyte interface formation between lithium and PEO-based electrolyte

[Display omitted] •Passivating layer – solid electrolyte interface (SEI) forms on lithium metal electrode in contact with polyethylene oxide solid electrolyte both during the cell cycling and at an open circuit potential.•The chemical reaction of polyethylene oxide with lithium could be studied by i...

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Bibliographic Details
Published in:Applied surface science 2022-07, Vol.589, p.153014, Article 153014
Main Authors: Ushakova, Elena E., Frolov, Alexander, Reveguk, Anastasia A., Usachov, Dmitry Yu, Itkis, Daniil M., Yashina, Lada V.
Format: Article
Language:English
Subjects:
Lithium metal
Lithium metal batteries
Polymer electrolyte
SEI
Solid electrolyte interface
Solid polymer batteries
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Summary:[Display omitted] •Passivating layer – solid electrolyte interface (SEI) forms on lithium metal electrode in contact with polyethylene oxide solid electrolyte both during the cell cycling and at an open circuit potential.•The chemical reaction of polyethylene oxide with lithium could be studied by in situ XPS and in situ NEXAFS using lithium deposition on polyethylene oxide under ultrahigh vacuum.•The reaction mechanism of polyethylene oxide with lithium metal yields not only lithium alkoxides (ROLi) but also polyethylene fragments.•Solid electrolyte interface between Li and polyethylene oxide generally reduces the ionic conductivity of solid polymer electrolyte and adds stability to the system at the same time. One of the approaches to improve the performance and ensure safe operation of lithium-metal batteries is the use of solid polymer electrolytes (SPE) that demonstrate relatively low reactivity towards metallic lithium. However, when lithium comes into contact with SPE, a solid electrolyte interphase (SEI) film is formed at the interface, although its composition, properties, and formation mechanism have not yet been sufficiently investigated. The present paper focuses on the issue of the lithium metal - polymer electrolyte interface stability. We used cyclic voltammetry and impedance spectroscopy to show that a passivating SEI layer forms at the working electrode in contact with SPE (PEO20LiTFSI) both during the cell cycling and at an open circuit potential, with the SEI thickness increasing to a certain point depending on the temperature. The chemical reaction that corresponds to the SEI formation was studied by XPS and NEXAFS spectroscopy for model experiments, including lithium deposition on polyethylene oxide (PEO) under ultrahigh vacuum. Based on the spectroscopy data, we propose a reaction mechanism that features reductive cleavage of a PEO molecule by lithium atoms, which yields not only lithium alkoxides (ROLi) but also polyethylene fragments. Although such kind of SEI should generally reduce the ionic conductivity of SPE, it adds stability to the system at the same time.
ISSN:0169-4332
1873-5584
DOI:10.1016/j.apsusc.2022.153014