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Boosting the Activity and Stability with Dual‐Metal‐N Couplings for Li–O<sub>2</sub> Battery

Shan Wu, Di Wu, Dawei Zhang, Wenhong Liu, Hao Luo, Jianbo He, Qingchun Yang, Zhiwei Li, Ruiping Liu

2021Energy & environment materials21 citationsDOI

Abstract

Electrocatalysts with high efficiency are crucial for improving the storage capacity and electrochemical stability of lithium–oxygen batteries (LOBs). In this work, through a facile hydrothermal method, cobalt–nitrogen‐doped carbon nanocubes (Co–N/C), the calcination products of zeolitic imidazolate framework (ZIF–67) are encapsulated by ultrathin C–MoS 2 nanosheets to obtain Co–N/C@C–MoS 2 composites which are used as host materials for the oxygen cathode. The synergistic effect between Co–N x active sites and Mo–N coupling centers effectively promotes the formation and decomposition of Li 2 O 2 during repeated discharge and charge process. The mesoporous C–MoS 2 nanosheets with delicately designed morphology facilitate charge transfer and account for improved reaction kinetics and more importantly, suppressed side reactions between the carbon materials and the electrolyte. The oxygen cathode with the Co–N/C@C–MoS 2 host shows a high initial discharge specific capacity of 21 197 mA h g −1 and a long operation life of 332 cycles. Theoretical calculation provides in‐depth explanation for the reaction mechanism and offers insights for the rational design of electrocatalysts for LOBs.

Topics & Concepts

Materials scienceCalcinationElectrochemistryCathodeElectrolyteImidazolateCobaltChemical engineeringZeolitic imidazolate frameworkMesoporous materialCarbon fibersOxygenHydrothermal circulationLithium (medication)Battery (electricity)ElectrodeCatalysisChemistryMetal-organic frameworkPhysical chemistryComposite materialComposite numberBiochemistryEngineeringMedicineOrganic chemistryEndocrinologyQuantum mechanicsMetallurgyPower (physics)AdsorptionPhysicsAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesSupercapacitor Materials and Fabrication
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