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ACS applied materials & interfaces
Dec 18, 2019;11 (50): 46993-47002.

Intrinsic Properties of Individual Inorganic Silicon-Electrolyte Interphase Constituents.

Sang-Don Han, Kevin N Wood, Caleb Stetson, Andrew G Norman, Michael T Brumbach, Jaclyn Coyle, Yun Xu, Steven P Harvey, Glenn Teeter, Andriy Zakutayev, Anthony K Burrell
Author Information
  1. Sang-Don Han: Materials and Chemical Science and Technology Directorate , National Renewable Energy Laboratory , 15013 Denver West Parkway , Golden , Colorado 80401 , United States. ORCID
  2. Kevin N Wood: Materials and Chemical Science and Technology Directorate , National Renewable Energy Laboratory , 15013 Denver West Parkway , Golden , Colorado 80401 , United States.
  3. Caleb Stetson: Materials and Chemical Science and Technology Directorate , National Renewable Energy Laboratory , 15013 Denver West Parkway , Golden , Colorado 80401 , United States. ORCID
  4. Andrew G Norman: Materials and Chemical Science and Technology Directorate , National Renewable Energy Laboratory , 15013 Denver West Parkway , Golden , Colorado 80401 , United States.
  5. Michael T Brumbach: Materials Characterization and Performance , Sandia National Laboratories , 1515 Eubank SE , Albuquerque , New Mexico 87185 , United States.
  6. Jaclyn Coyle: Materials and Chemical Science and Technology Directorate , National Renewable Energy Laboratory , 15013 Denver West Parkway , Golden , Colorado 80401 , United States. ORCID
  7. Yun Xu: Materials and Chemical Science and Technology Directorate , National Renewable Energy Laboratory , 15013 Denver West Parkway , Golden , Colorado 80401 , United States. ORCID
  8. Steven P Harvey: Materials and Chemical Science and Technology Directorate , National Renewable Energy Laboratory , 15013 Denver West Parkway , Golden , Colorado 80401 , United States. ORCID
  9. Glenn Teeter: Materials and Chemical Science and Technology Directorate , National Renewable Energy Laboratory , 15013 Denver West Parkway , Golden , Colorado 80401 , United States.
  10. Andriy Zakutayev: Materials and Chemical Science and Technology Directorate , National Renewable Energy Laboratory , 15013 Denver West Parkway , Golden , Colorado 80401 , United States. ORCID
  11. Anthony K Burrell: Materials and Chemical Science and Technology Directorate , National Renewable Energy Laboratory , 15013 Denver West Parkway , Golden , Colorado 80401 , United States.
PMID: 31738043 DOI: 10.1021/acsami.9b18252

Abstract

Because of the complexity, high reactivity, and continuous evolution of the silicon-electrolyte interphase (SiEI), "individual" constituents of the SiEI were investigated to understand their physical, electrochemical, and mechanical properties. For the analysis of these intrinsic properties, known SiEI components (i.e., SiO, LiSiO, LiSiO, LiSiO, LiO, and LiF) were selected and prepared as amorphous thin films. The chemical composition, purity, morphology, roughness, and thickness of prepared samples were characterized using a variety of analytical techniques. On the basis of subsequent analysis, LiF shows the lowest ionic conductivity and relatively weak, brittle mechanical properties, while lithium silicates demonstrate higher ionic conductivities and greater mechanical hardness. This research establishes a framework for identifying components critical for stabilization of the SiEI, thus enabling rational design of new electrolyte additives and functional binders for the development of next-generation advanced Li-ion batteries utilizing Si anodes.

Keywords

amorphous thin films chemical composition individual constituents intrinsic properties silicon−electrolyte interphase (SiEI)
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