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Work‐Function‐Induced Interfacial Electron/Ion Transport in Carbon Hosts toward Dendrite‐Free Lithium Metal Anodes

Yu‐Shuai Feng, Yun‐Nuo Li, Pei Wang, Zai‐Ping Guo, Feifei Cao, Huan Ye

2023Angewandte Chemie International Edition90 citationsDOI

Abstract

Abstract Coupled electron/ion transport is a decisive feature of Li plating/stripping, wherein the compatibility of electron/ion transport rates determines the morphology of deposited Li. Local Li + hotspots form due to inhomogeneous interfacial charge transfer and lead to uncontrolled Li deposition, which decreases the Li utilization rate and safety of Li metal anodes. Herein, we report a method to obtain dendrite‐free Li metal anodes by driving electron pumping and accumulating and boosting Li ion diffusion by tuning the work function of a carbon host using cobalt‐containing catalysts. The results reveal that increasing the work function provides an electron deviation from C to Co, and electron‐rich Co shows favorable binding to Li + . The Co catalysts boost Li + diffusion on the carbon fiber scaffolds without local aggregation by reducing the Li + migration barrier. The as‐obtained dendrite‐free Li metal anode exhibits a Coulombic efficiency of 99.0 %, a cycle life of over 2000 h, a Li utilization rate of 50 %, and a capacity retention of 83.4 % after 130 cycles in pouch cells at a negative/positive capacity ratio of 2.5. These findings provide a novel strategy to stabilize Li metal by regulating the work function of materials using electrocatalysts.

Topics & Concepts

AnodeFaraday efficiencyMaterials scienceWork functionChemical engineeringMetalIonElectron transport chainCapacity lossElectron transferLithium (medication)ElectrodeChemistryMetallurgyPhotochemistryPhysical chemistryBiochemistryEndocrinologyOrganic chemistryMedicineEngineeringAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesAdvanced Battery Technologies Research
Work‐Function‐Induced Interfacial Electron/Ion Transport in Carbon Hosts toward Dendrite‐Free Lithium Metal Anodes | Litcius