![]() ![]() Zhang SS (2006) A review on electrolyte additives for lithium-ion batteries. Zheng J, Wu X, Yang Y (2013) Improved electrochemical performance of LiO 2 cathode material by fluorine incorporation. (2014) Excellent rate capability of Mg doped LiO 2 cathode material for lithium-ion battery. Mauger A, Julien CM (2014) Surface modifications of electrode materials for lithium-ion batteries: status and trends. (2010) Role of surface coating on cathode materials for lithium-ion batteries. (2005) Role of alumina coating on Li-Ni-Co-Mn-O particles as positive electrode material for lithium-ion batteries. (2003) Decomposition of LiPF 6 and stability of PF 5 in Li-ion battery electrolytes. (2014) Functioning mechanism of AlF 3 coating on the Li- and Mn-rich cathode materials. (2018) Chemomechanical behaviors of layered cathode materials in alkali metal ion batteries. doi: 10.1016/j.jpowsour.2016.12.011Ĭabana J, Kwon BJ, Hu L (2018) Mechanisms of degradation and strategies for the stabilization of cathode–electrolyte interfaces in Li-ion batteries. (2017) Degradation diagnostics for lithium ion cells. (2013) Synthesis, structural, magnetic and electrochemical properties of LiNi 1/3Mn 1/3Co 1/3O 2 prepared by a sol-gel method using table sugar as chelating agent. Kiziltas-Yavuz N, Herklotz M, Hashem AM, et al. Tröltzsch U, Kanoun O, Tränkler HR (2006) Characterizing aging effects of lithium ion batteries by impedance spectroscopy. (2005) Ageing mechanisms in lithium-ion batteries. (2016) Lithium Batteries, Switzerland: Springer, Cham. Functional behavior of AlF3 coatings for high-performance cathode materials for lithium-ion batteries. The effect of AlF 3 coating on electrochemical performance is examined at various deposit amounts with a comparison of the capacity retention and cycling stability of the different systems proposed in the literature.Ĭitation: Christian M. In this paper, the surface coverage of cathode materials by aluminum fluoride is reviewed. ![]() The surface modification of the electrode materials is part of the solution. However, the improvement of calendar and cycling life together with safety issues require sophisticated technology to prevent degradation mechanisms. In response to the ever worsening of the environment by consumption of fossil fuels, energy storage systems like lithium-ion batteries that offer high energy efficiency have evoked a great interest as power sources from portable electronics to electric vehicles. ![]()
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