Journal ArticleDOI
A comparison of solid electrolyte interphase (SEI) on the artificial graphite anode of the aged and cycled commercial lithium ion cells
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TLDR
In this article, the performance of commercial lithium ion cells with LiCoO 2 as cathode, artificial graphite as anode and 1.M LiPF 6/EC-DEC-EMC (ethylene carbonate,diethyl carbonate-dimethyl carbonate) with additives (1.1% propylene sulfite (PS)) as electrolyte were aged at 60% and 100% state of charge (SOC) for 6 months at room temperature and the corresponding cycle performance was measured.About:
This article is published in Electrochimica Acta.The article was published on 2008-03-20. It has received 201 citations till now. The article focuses on the topics: Lithium & Anode.read more
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A review of the features and analyses of the solid electrolyte interphase in Li-ion batteries
TL;DR: The solid electrolyte interphase (SEI) is a protecting layer formed on the negative electrode of Li-ion batteries as a result of electrolyte decomposition, mainly during the first cycle as discussed by the authors.
Journal ArticleDOI
The formation and stability of the solid electrolyte interface on the graphite anode
Victor Agubra,Jeffrey W. Fergus +1 more
TL;DR: In this article, the formation and stability of the solid electrolyte interface (SEI) layer for lithium ion batteries is reviewed, including discussion of the formation, growth and stability on graphite anode materials.
Journal ArticleDOI
Understanding the Improvement in the Electrochemical Properties of Surface Modified 5 V Limn1.42Ni0.42Co0.16O4 Spinel Cathodes in Lithium-ion Cells
Jun Liu,Arumugam Manthiram +1 more
TL;DR: In this paper, the surface modified LiMn1.42Ni0.42Co0.16O4 with cation disorder in the 16d octahedral sites has been surface modified with 2 wt % nanosize Al2O3, ZnO, Bi2O 3, and AlPO4 by an electrostatic self-assembly method.
Journal ArticleDOI
Lithium Ion Battery Anode Aging Mechanisms
Victor Agubra,Jeffrey W. Fergus +1 more
TL;DR: The most common aging mechanisms occurring at the anode during the operation of the lithium battery, as well as some approaches for minimizing the degradation are reviewed.
References
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Journal ArticleDOI
Nonaqueous liquid electrolytes for lithium-based rechargeable batteries.
TL;DR: The phytochemical properties of Lithium Hexafluoroarsenate and its Derivatives are as follows: 2.2.1.
Journal ArticleDOI
Ageing mechanisms in lithium-ion batteries
Jens Vetter,Petr Novák,Markus Robert Wagner,Claudia Veit,Kai-Christian Möller,Jürgen Besenhard,Martin Winter,Margret Wohlfahrt-Mehrens,C Vogler,Abderrezak Hammouche +9 more
TL;DR: In this article, the mechanisms of lithium-ion battery ageing are reviewed and evaluated, and the most promising candidate as the power source for (hybrid) electric vehicles and stationary energy storage.
Journal ArticleDOI
Review of selected electrode–solution interactions which determine the performance of Li and Li ion batteries
TL;DR: In this article, the performance of Li, Li-C anodes and Li x MO y cathodes depends on their surface chemistry in solutions, which either contribute to electrode stabilization or to capacity fading due to an increase in the electrodes' impedance.
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Main aging mechanisms in Li ion batteries
Michel Broussely,Ph. Biensan,F. Bonhomme,Ph. Blanchard,S. Herreyre,Kamen Nechev,Robert J. Staniewicz +6 more
TL;DR: In this paper, the aging mechanisms occurring in Li ion batteries, either on rest or on cycling, are described from long-term storage or cycling data, and the results are an increase of cell impedance, and possible slow CO2 evolution.
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On the correlation between surface chemistry and performance of graphite negative electrodes for Li ion batteries
TL;DR: In this paper, the performance of graphite electrodes with diAerent electrolyte solutions (e.g., ethylene carbonate-based solutions, propylene carbonates, and ether-based systems) is discussed.