Atomic-scale tuned interface of nickel-rich cathode for enhanced electrochemical performance in lithium-ion batteries  被引量:1

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作  者:Yongqiang Liu Xin Wang Jiyu Cai Xiaoxiao Han Dongsheng Geng Jianlin Li Xiangbo Meng 

机构地区:[1]Beijing Advanced Innovation Center for Materials Genome Engineering,Beijing Key Laboratory for Magneto-Photoelectrical Composite and Interface Science,School of Mathematics and Physics,School of Materials Science and Engineering,University of Science and Technology Beijing,Beijing,100083,China [2]Department of Mechanical Engineering,University of Arkansas,Fayetteville,AR,72701,United States [3]Energy and Transportation Science Division,Oak Ridge National Laboratory,Oak Ridge,TN,37831,United States

出  处:《Journal of Materials Science & Technology》2020年第19期77-86,共10页材料科学技术(英文版)

基  金:financial research support from 111 Project(No.B170003);University of Science and Technology Beijing;the partial support from the Center for Advanced Surface Engineering,under the National Science Foundation Grant(No.OIA-1457888);the Arkansas EPSCo R Program,ASSET III;the financial research support from University of Arkansas,Fayetteville,AR,USA;supported by the US Department of Energy,Office of Science,under Contract(No.DE-AC02-06CH11357)。

摘  要:The Ni-rich layered LiNi_(0.6)Mn_(0.2)Co_(0.2)O_(2)(NMC622)is one promising cathode for lithium-ion batteries(LIBs),but suffers from poor cycling stability under high cutoff potentials.The performance degradation was reflected as capacity fading and voltage drop,having their roots in instable interface of NMC622.Aimed at improving interfacial stability,in this study,we deposited nanoscale ZrO_(2) coatings conformally over NMC622 cathodes using atomic layer deposition(ALD).We found that,under a high cutoff voltage(4.5 V),the ALD ZrO_(2) coatings evidently improved the performance of NMC622 cathode,showing better cyclability and higher sustainable capacity.In addition,the ALD coatings dramatically boosted the rate capability of NMC622.All these compelling performance results are ascribed to the atomic-scale tunable ZrO_(2) coatings via ALD,which create stable interface and thereby inhibit unfavorable evolutions.In the study,we utilize a suite of characterization tools and various analyses to clarify the effects of ALD ZrO_(2) coatings.This study will be helpful for improving the performance of nickel-rich cathodes via interfacial engineering using ALD.

关 键 词:Atomic layer deposition Lithium ion battery Surface coating 

分 类 号:TM912[电气工程—电力电子与电力传动]

 

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