Electrode–Electrolyte Interface in Li-Ion Batteries: Current Understanding and New Insights

Gauthier, Magali; Carney, Thomas J.; Grimaud, Alexis; Giordano, Livia; Pour, Nir; Chang, Hao-Hsun; Fenning, David P.; Lux, Simon; Paschos, Odysseas; Bauer, Christoph; Maglia, Filippo; Lupart, Saskia; Lamp, Peter; Shao‐Horn, Yang

doi:10.1021/acs.jpclett.5b01727

articleThe Journal of Physical Chemistry LettersOct 29, 2015Closed access

Electrode–Electrolyte Interface in Li-Ion Batteries: Current Understanding and New Insights

MGMagali Gauthier TJThomas J. Carney AGAlexis Grimaud LGLivia Giordano NPNir Pour

University of Milano-Bicocca · BMW of North America (United States) · +2 more institutions

PubMed

Indexed incrossrefpubmed

Abstract

Understanding reactions at the electrode/electrolyte interface (EEI) is essential to developing strategies to enhance cycle life and safety of lithium batteries. Despite research in the past four decades, there is still limited understanding by what means different components are formed at the EEI and how they influence EEI layer properties. We review findings used to establish the well-known mosaic structure model for the EEI (often referred to as solid electrolyte interphase or SEI) on negative electrodes including lithium, graphite, tin, and silicon. Much less understanding exists for EEI layers for positive electrodes. High-capacity Li-rich layered oxides yLi2-xMnO3·(1-y)Li1-xMO2, which can generate highly…

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Topics & keywords

Topics

Keywords

Electrolyte
Current (fluid)
Electrode
Interface (matter)
Materials science
Computer science
Nanotechnology
Engineering physics

UN Sustainable Development Goals

Responsible consumption and production

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