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Rational Design of Yolk–Shell ZnCoSe@N‐Doped Dual Carbon Architectures as Long‐Life and High‐Rate Anodes for Half/Full Na‐Ion Batteries

Jian Feng, Shaohua Luo, Shengxue Yan, Zhan Yang, Qing Wang, Yahui Zhang, Xin Liu, Longjiao Chang

2021Small81 citationsDOI

Abstract

Abstract Transition‐metal selenides (TMSs) have emerged as prospective anode materials for sodium ion batteries (SIBs), owing to their considerable theoretical capacity and intrinsic high electronic conductivity. Whereas, TMSs still suffer from poor rate capability and inferior cycling stability induced by sluggish kinetics and severe volume changes during de/sodiation processes. Herein, a hierarchical composite consisting of a zinc‐cobalt bimetallic selenide yolk and nitrogen‐doped double carbon shell (denoted as ZnCoSe@NDC) is engineered and fabricated successfully. The architecture of the as‐fabricated material improves the Na‐ion storage performance via increasing the electron transfer kinetics, accommodating volume expansion, and mitigating the generation of by‐products. As expected, the ZnCoSe@NDC electrode delivers superior sodium storage performance with long cycling stability (344.5 mAh g −1 at 5.0 A g −1 over 2000 long‐term cycles) and high‐rate performance (319.2 mAh g −1 at 10.0 A g −1 ). Meanwhile, the NVP@C//ZnCoSe@NDC full SIB cells are constructed successfully, retaining 96.3% of its initial capacity at 0.5A g −1 after 200 loops. The outstanding electrochemical performance and the construction of hybrid SIBs will have far‐reaching influences on the development of the various rechargeable batteries.

Topics & Concepts

AnodeMaterials scienceSelenideElectrochemistryBimetallic stripChemical engineeringCobaltCarbon fibersComposite numberKineticsElectrodeNanotechnologyMetalComposite materialMetallurgyChemistrySeleniumQuantum mechanicsEngineeringPhysical chemistryPhysicsAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesAdvanced battery technologies research
Rational Design of Yolk–Shell ZnCoSe@N‐Doped Dual Carbon Architectures as Long‐Life and High‐Rate Anodes for Half/Full Na‐Ion Batteries | Litcius