Lithium-rich oxide compounds have been recognized as promising cathode materials for high performance Li-ion batteries,owing to their high specific capacity.However,it remains a great challenge to achieve the fully reversible anionic redox reactions to realize high capacity,high stability,and low voltage hysteresis for lithium-rich cathode materials.Therefore,it is critically important to comprehensively understand and control the anionic redox chemistry of lithium-rich cathode materials,including atomic structure design,and nano-scale materials engineering technologies.Herein,we summarize the recent research progress of lithium-rich cathode materials with a focus on redox chemistry.Particularly,we highlight the oxygen-based redox reactions in lithium-rich metal oxides,with critical views of designing next generation oxygen redox lithium cathode materials.Furthermore,we purposed the most promising strategies for improving the performances of lithium-rich cathode materials with a technology-spectrum from the atomic scale to nano-scale.

Majid Farahmandjou;Shuoqing Zhao;Wei-Hong Lai;Bing Sun;Peter.H.L.Notten;Guoxiu Wang

Centre for Clean Energy Technology,School of Mathematical and Physical Sciences,Faculty of Science,University of Technology Sydney,Sydney,NSW,2007,Australia;Department of Chemical Engineering and Chemistry,Eindhoven University of Technology,5600,MB,Eindhoven,the Netherlands;Fundamental Electrochemistry(IEK9),Forschungszentrum Jülich,D-52425,Jülich,Germany

纳米材料科学（英文版）

[1]Majid Farahmandjou;Shuoqing Zhao;Wei-Hong Lai;Bing Sun;Peter.H.L.Notten;Guoxiu Wang-.Oxygen redox chemistry in lithium-rich cathode materials for Li-ion batteries:Understanding from atomic structure to nano-engineering)[J].纳米材料科学（英文版）,2022(04):322-338

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