![]() ![]() Zhang W, Liang L, Zhao F, Liu Y, Hou L, Yuan C. H3PO4 treatment to enhance the electrochemical properties of Li(Ni 1/3Mn 1/3Co 1/3)O 2 and Li(Ni 0.5Mn 0.3Co 0.2)O 2 cathodes. Sahni K, Ashuri M, He Q, Sahore R, Bloom ID, Liu Y, Kaduk JA, Shaw LL. Enhanced interfacial reaction interface stability of Ni-rich cathode materials by fabricating dual-modified layer coating for lithium-ion batteries. Wang H, Chu Y, Pan Q, Yang G, Lai A, Liu Z, Zheng F, Hu S, Huang Y, Li Q. The role of AlF 3 coatings in improving electrochemical cycling of Li-enriched nickel-manganese oxide electrodes for Li-ion batteries. Sun YK, Lee MJ, Yoon CS, Hassoun J, Amine K, Scrosati B. Effects of PVP-assisted Co 3O 4 coating on the electrochemical and storage properties of LiNi 0.6Co 0.2Mn 0.2O 2 at high cut-off voltage. Significantly improving cycling performance of cathodes in lithium ion batteries: the effect of Al 2O 3 and LiAlO 2 coatings on LiNi 0.6Co 0.2Mn 0.2O 2. Liu W, Li X, Xiong D, Hao Y, Li J, Kou H, Yan B, Li D, Lu S, Koo A. An approach to application for LiNi 0.6Co 0.2Mn 0.2O 2 cathode material at high cutoff voltage by TiO 2 coating. Functional passivation interface of LiNi 0.8Co 0.1Mn 0.1O 2 toward superior lithium storage. Liu W, Li X, Hao Y, Xiong D, Shan H, Wang J, Xiao W, Yang H, Yang H, Kou L, Tian Z, Shao L, Zhang C. How do polymer binders assist transition metal oxide cathodes to address the challenge of high-voltage lithium battery applications? Electrochemical Energy Reviews. Simultaneous enhancement of interfacial stability and kinetics of single-crystal LiNi 0.6Mn 0.2Co 0.2O 2 through optimized surface coating and doping. 2020 54:77.īao W, Qian G, Zhao L, Yu Y, Su L, Cai X, Zhao H, Zuo Y, Zhang Y, Li H. Atomic-scale tuned interface of nickel-rich cathode for enhanced electrochemical performance in lithium-ion batteries. Liu Y, Wang X, Cai J, Han X, Geng D, Li J, Meng X. Atomic-scale constituting stable interface for improved LiNi 0.6Mn 0.2Co 0.2O 2 cathodes of lithium-ion batteries. Wang X, Cai J, Liu Y, Han X, Ren Y, Li J, Liu Y, Meng X. Intrinsic origins of crack generation in Ni-rich LiNi 0.8Co 0.1Mn 0.1O 2 layered oxide cathode material. Lim JM, Hwang T, Kim D, Park MS, Cho K, Cho M. Oxygen release induced chemomechanical breakdown of layered cathode materials. Mu L, Lin R, Xu R, Han L, Xia S, Sokaras D, Steiner JD, Weng TC, Nordlund D, Doeff MM. Anisotropic lattice strain and mechanical degradation of high-and low-nickel NCM cathode materials for Li-ion batteries. Kondrakov AO, Schmidt A, Xu J, Geßwein H, Mönig R, Hartmann P, Sommer H, Brezesinski T, Janek JR. Insight into the gassing problem of Li-ion battery. Nickel, manganese, and cobalt dissolution from Ni-rich NMC and their effects on NMC622-graphite cells. Jung R, Linsenmann F, Thomas R, Wandt J, Solchenbach S, Maglia F, Stinner C, Tromp M, Gasteiger HA. Singlet oxygen evolution from layered transition metal oxide cathode materials and its implications for lithium-ion batteries. Wandt J, Freiberg ATS, Ogrodnik A, Gasteiger HA. Charge-transfer-induced lattice collapse in Ni-rich NCM cathode materials during delithiation. Kondrakov AO, Geßwein H, Galdina K, De Biasi L, Meded V, Filatova EO, Schumacher G, Wenzel W, Hartmann P, Brezesinski T. Oxygen release and its effect on the cycling stability of LiNi xMn 圜o zO 2 (NMC) cathode materials for Li-ion batteries. Jung R, Metzger M, Maglia F, Stinner C, Gasteiger HA. Understanding of performance degradation of LiNi 0.80Co 0.10Mn 0.10O 2 cathode material operating at high potentials. Understanding the degradation mechanisms of LiNi 05Co 02Mn 03O 2 cathode material in lithium ion batteries. Jung SK, Gwon H, Hong J, Park KY, Seo DH, Kim H, Hyun J, Yang W, Kang K. Enhancement on the cycling stability of the layered Ni-rich oxide cathode by in-situ fabricating nano-thickness cation-mixing layers. Origin of structural degradation during cycling and low thermal stability of Ni-rich layered transition metal-based electrode materials. 2016 307:641.ĭixit M, Markovsky B, Schipper F, Aurbach D, Major DT. Microstructural study on degradation mechanism of layered LiNi 0.6Co 0.2Mn 0.2O 2 cathode materials by analytical transmission electron microscopy. Surface reconstruction and chemical evolution of stoichiometric layered cathode materials for lithium-ion batteries. Lin F, Markus IM, Nordlund D, Weng TC, Asta MD, Xin HL, Doeff MM. Atomic layer deposition of solid-state electrolytes for next-generation lithium-ion batteries and beyond: opportunities and challenges. Synchrotron-based X-ray diffraction and absorption spectroscopy studies on layered LiNi xMn 圜o zO 2 cathode materials: a review. Metal–organic frameworks and their derivatives as cathodes for lithium-ion battery applications: a review. ![]()
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