Nonmacrocyclic Iron(II)Soluble Redox Mediators Leading to High-Rate Li-O_(2)Battery

作     者：Baoxing Wang Xiao Wang Xueyi Cheng Jing Zhang Minglei Yan Guochang Li Lijun Yang Qiang Wu Xizhang Wang Zheng Hu 

作者机构：Key Laboratory of Mesoscopic Chemistry of MOEJiangsu Provincial Laboratory for Nano technologySchool of Chemistry and Chemical EngineeringNanjing UniversityNanjing 210023 

出 版 物：《CCS Chemistry》 (中国化学会会刊（英文）)

年 卷 期：2021年第3卷第5期

页      面：1350-1358页

学科分类：07[理学] 070303[理学-有机化学] 0703[理学-化学] 

基　　金：This study was jointly financed by the National Key Research and Development Program of China(nos.2018YFA0209100 and 2017YFA0206500) the NSFC(nos.21832003,21972061,21773111,51571110,and 21573107) the Fundamental Research Funds for the Central Universities(no.14380237). 

主　　题：lithium-oxygen battery redox mediator nonmacrocyclic iron(II)mediator superoxide shuttling high-rate performance 

摘      要：The lithium-oxygen(Li-O_(2))battery is highly promising but suffers from poor cycling life,especially at high rates;hence,the need for high-efficient accelerating agents is crucial.Recently macrocyclic Fe-based redox mediators,such as iron(II)phthalocyanine(FePc)and heme,have been developed and anticipated to be ideal due to their bifunctional charge and superoxide shuttling capabilities.However,they still operate far below expectations,which could result from the low concentrations in electrolyte due to the strongπ-πinteraction at carbon cathode.Herein,the authors report a new type of nonmacrocyclic Fe-based redox mediators,iron(II)acetylacetonate[Fe(acac)2]and iron(II)glycinate[Fe(gly)2],which have weakπ-πinteraction with the carbon cathode,thus,remain at high concentrations in the electrolyte.The Fe(gly)2@Li-O_(2)battery reaches a long life of 321 cycles at 0.5 A g^(−1),which is much superior to the counterpart with the typical macrocyclic FePc,and particularly exhibits a long life of 167 cycles at 2.0 A g^(−1)and 136 cycles at ultrahigh 5.0 A g^(−1).This study demonstrates an efficient strategy to achieve a high-rate performance of Li-O_(2)batteries by developing nonmacrocyclic Fe-based redox mediators with high-efficient electron and superoxide shuttling.