首页|Synergistic strategy of surface-induced spinel structure and F doping to improve the electrochemical performance of Li-rich cathodes

Synergistic strategy of surface-induced spinel structure and F doping to improve the electrochemical performance of Li-rich cathodes

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Li-rich Mn-based materials provide higher capacity than commercial NCM layered materials due to the synergistic redox effect of cations and anions.However,lattice straining and structural collapse caused by the irreversible oxygen release at high voltage range during cycling,which results in severe capacity and voltage decay.Herein,a synergistic strategy of surface-induced spinel structure and F doping is provided to improve the structural sta-bility.The surface spinel structure helps to reduce the structural collapse caused by electrolyte corrosion on the cathode and effectively inhibits voltage decay resulted from structural evolution.The stronger Mn-F bonds are formed by F doping to inhibit migration of transition metal(TM)and induce the uniform deposition of LiF to form the thinner and more stable CEI on the cathode.Accordingly,the designed cathode(LMNO-NF)shows remarkable cycling performance with the capacity retention of 86.68%and voltage retention of 96.6%for 200 cycles at 1C,higher than pristine material(68.76%and 85.75%).Therefore,this simple dual-modification strategy of one-step synthesis is promising for solving the structural evolution and voltage decay of Li-rich Mn-based cathode materials effectively,achieving further commercialization.

Synergistic strategySurface-induced spinel structureF dopingHigh cycling stabilityLi-rich Mn-Based cathode

Yuezhen Wang、Ningbo Qin、Xun Yuan、Shiming Qiu、Fangli Ji、Ruirui Tuo、Tingfeng Guan、Cheng Yang、Jiang Zhu、Miao Ge、Hui Wang、Yan Cheng、Zhaozhe Yu

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Guangxi Key Laboratory of Manufacturing Systems and Advanced Manufacturing Technology,Guilin University of Electronic Technology,Guilin,541004,PR China

Guangxi Institute of Science and Technology Development Co.,Ltd.,Nanning,530028,PR China

Guangxi CNGR New Energy Science & Technology Co.,Ltd.,Qinzhou,535000,PR China

Guangxi Key Laboratory for High-value Utilization of Manganese Resources,Guangxi Minzu Normal University,Chongzuo,532200,PR China

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2024

10.1016/j.pnsc.2024.04.010

自然科学进展·国际材料(英文)
国家自然科学基金委员会

自然科学进展·国际材料(英文)

影响因子:0.25
ISSN:1002-0071
年,卷(期):2024.34(3)