Reactive boride infusion stabilizes Ni-rich cathodes for lithium-ion batteries

电解质 涂层 材料科学 锂(药物) 电极 阴极 硼化物 润湿 化学工程 电化学 晶间腐蚀 腐蚀 冶金 复合材料 化学 医学 物理化学 工程类 内分泌学
作者
Moonsu Yoon,Yanhao Dong,Jaeseong Hwang,Jaekyung Sung,Hyungyeon Cha,Ki-Hong Ahn,Yimeng Huang,Seok Ju Kang,Ju Li,Jaephil Cho
出处
期刊:Nature Energy [Nature Portfolio]
卷期号:6 (4): 362-371 被引量:529
标识
DOI:10.1038/s41560-021-00782-0
摘要

Engineered polycrystalline electrodes are critical to the cycling stability and safety of lithium-ion batteries, yet it is challenging to construct high-quality coatings at both the primary- and secondary-particle levels. Here we present a room-temperature synthesis route to achieve a full surface coverage of secondary particles and facile infusion into grain boundaries, and thus offer a complete ‘coating-plus-infusion’ strategy. Cobalt boride metallic glass was successfully applied to a Ni-rich layered cathode LiNi0.8Co0.1Mn0.1O2. It dramatically improved the rate capability and cycling stability, including under high-discharge-rate and elevated-temperature conditions and in pouch full-cells. The superior performance originates from a simultaneous suppression of the microstructural degradation of the intergranular cracking and of side reactions with the electrolyte. Atomistic simulations identified the critical role of strong selective interfacial bonding, which offers not only a large chemical driving force to ensure uniform reactive wetting and facile infusion, but also lowers the surface/interface oxygen activity, which contributes to the exceptional mechanical and electrochemical stabilities of the infused electrode. Coating is commonly used to improve electrode performance in batteries, but it is challenging to achieve and maintain complete coverage of electrode particles during cycling. Here the authors present a coating-and-infusion approach on Ni-rich cathodes that effectively retards stress corrosion cracking.
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