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Hierarchical Mg-Birnessite Nanowall Arrays with Enriched (010) Planes for High Performance Aqueous Mg-Ion Batteries

Zhengyi Shi, Liang Xue, Jianghua Wu, Qiubo Guo, Qiuying Xia, Mingzhu Ni, Peng Wang, Serguei V. Savilov, С. М. Алдошин, Feng Zan, Hui Xia

2021Journal of The Electrochemical Society18 citationsDOI

Abstract

Birnessite MnO 2 is a promising cathode material for aqueous Mg-ion batteries due to its layered structure with large interlayer distance. However, the two-dimensional growth mode of birnessite induces nanosheet morphology with preferred growth of inactive (001) planes with sluggish ion transport kinetics. In this work, a high Mg content birnessite with hierarchical nanowall arrays morphology is prepared by in situ electro-conversion using spinel Mn 3 O 4 nanowall arrays. The electro-conversion Mg-birnessite (ECMB) nanowall arrays are assembled by ultrasmall nanosheets with reduced (001) planes but increased active (010) planes, affording enriched open intercalation channels and shortened Mg 2+ diffusion length. Consequently, the ECMB cathode exhibits a large specific reversible capacity of about 255.1 mAh g −1 at a current density of 200 mA g −1 , and outstanding cycling stability with 73.6% capacity retention after 3000 cycles. Finally, a 2.2 V aqueous full cell is constructed by using ECMB as positive electrode and polyimide as negative electrode, which achieves a high energy density of 65.2 Wh kg −1 at a power density of 96 W kg −1 . This work demonstrates effective crystal plane modulation for Mg-birnessite to achieve superior Mg 2+ storage in aqueous batteries.

Topics & Concepts

BirnessiteNanosheetMaterials scienceAqueous solutionElectrodeChemical engineeringIntercalation (chemistry)CathodeSpinelIonNanotechnologyInorganic chemistryManganeseChemistryMetallurgyManganese oxideEngineeringOrganic chemistryPhysical chemistryAdvanced battery technologies researchAdvancements in Battery MaterialsSupercapacitor Materials and Fabrication
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