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Enhanced Interfacial Magnetization is Responsible for the Negative Capacity Fading of Cobalt Ditelluride Anodes for Lithium Storage

Huilin Fan, Guangyu Zhou, Jinliang Li, Yanyan Zhao, Lu Bai, Huaiqiu Chang, Runguo Zheng, Zhiyuan Wang, Yanguo Liu, Hongyu Sun

2023Small14 citationsDOIOpen Access PDF

Abstract

Abstract In lithium‐ion batteries (LIBs), the stabilized capacities of transition metal compound anodes usually exhibit higher values than their theoretical values due to the interfacial charge storage, the formation of reversible electrolyte‐derived surface layer, or interfacial magnetization. But the effectively utilizing the mechanisms to achieve novel anodes is rarely explored. Herein, a novel nanosized cobalt ditelluride (CoTe 2 ) anodes with ultra‐high capacity and long term stability is reported. Electrochemical tests show that the lithium storage capacity of the best sample reaches 1194.7 mA h g −1 after 150 cycles at 0.12 A g −1 , which increases by 57.8% compared to that after 20 cycles. In addition, the sample offers capacities of 546.6 and 492.1 mA h g −1 at 0.6 and 1.8 A g −1 , respectively. During cycles, CoTe 2 particles (average size 20 nm) are gradually pulverized into the smaller nanoparticles (<3 nm), making the magnetization more fully due to the larger contact area of Co/Li 2 Te interface, yielding an increased capacity. The negative capacity fading is observed, and verified by ex situ structural characterizations and in situ electrochemical measurements. The proposed strategy can be further extended to obtain other high‐performance ferromagnetic metal based electrodes for energy storage applications.

Topics & Concepts

Materials scienceAnodeLithium (medication)ElectrolyteElectrochemistryCobaltMagnetizationCapacity lossTransition metalChemical engineeringMetalIn situElectrodeFerromagnetismNanotechnologyMetallurgyChemistryPhysical chemistryCondensed matter physicsMagnetic fieldCatalysisEndocrinologyPhysicsMedicineEngineeringOrganic chemistryQuantum mechanicsBiochemistryAdvancements in Battery MaterialsAdvanced Battery Materials and Technologies2D Materials and Applications
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