摘要
The development of cation-disordered rocksalt(DRX)cathodes has garnered worldwide attention due to their high capacity,broad chemical space and excellent structural flexibility.However,their low intrinsic Li-ion conductivity necessitates extensive particle pulverization,typically achieved through ball-milling process,which impedes large-scale production.In this work,we present a proton-exchange assisted strategy to activate the Li-ion transport in Mn-based DRX cathodes.Short-range spinel-like ordering is observed to form within the DRX matrix after the post treatment,which significantly enhances the intrinsic Li ion mobility.Notably,more than 280 mAh g^(-1)discharge capacity can be delivered at a slow rate from micrometer-sized particles with an overall disordered cation arrangement,which retains more than150 m Ah g^(-1)when cycled at a very high rate of 2000 mA g^(-1).Furthermore,we also demonstrate that the electrochemical performance of the post-treated cathodes can be further optimized by fine-tuning the reaction parameters.
基金
funding support from the National Natural Science Foundation of China
the Institute of WeiqiaoUCAS Science and Technology
the Fundamental Research Funds for the Central Universities。
作者简介
Corresponding authors:Xianhu Sun.E-mail addresses:sunxianhu@ucas.ac.cn;Corresponding authors:Zhengyan Lun.E-mail addresses:zylun@ucas.ac.cn;Yuchen Zhang,contributed equally to this work;Hao Chen,contributed equally to this work.
