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In Situ Oriented Mn Deficient ZnMn2O4@C Nanoarchitecture for Durable Rechargeable Aqueous Zinc-Ion Batteriesopen access

Authors
Islam, SaifulAlfaruqi, Muhammad HilmyPutro, Dimas YuniantoPark, SohyunKim, SeokhunLee, SeulgiAhmed, Mohammad ShamsuddinMathew, VinodSun, Yang-KookHwang, Jang-YeonKim, Jaekook
Issue Date
Feb-2021
Publisher
WILEY
Keywords
aqueous Zn-ion batteries; in situ grown Mn deficient ZnMn2O4@C; ZnO-MnO@C nanocomposite
Citation
ADVANCED SCIENCE, v.8, no.4, pp.1 - 14
Indexed
SCIE
SCOPUS
Journal Title
ADVANCED SCIENCE
Volume
8
Number
4
Start Page
1
End Page
14
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/1423
DOI
10.1002/advs.202002636
Abstract
Manganese (Mn)-based cathode materials have garnered huge research interest for rechargeable aqueous zinc-ion batteries (AZIBs) due to the abundance and low cost of manganese and the plentiful advantages of manganese oxides including their different structures, wide range of phases, and various stoichiometries. A novel in situ generated Mn-deficient ZnMn2O4@C (Mn-d-ZMO@C) nanoarchitecture cathode material from self-assembly of ZnO-MnO@C for rechargeable AZIBs is reported. Analytical techniques confirm the porous and crystalline structure of ZnO-MnO@C and the in situ growth of Mn deficient ZnMn2O4@C. The Zn/Mn-d-ZMO@C cell displays a promising capacity of 194 mAh g(-1) at a current density of 100 mA g(-1) with 84% of capacity retained after 2000 cycles (at 3000 mA g(-1) rate). The improved performance of this cathode originates from in situ orientation, porosity, and carbon coating. Additionally, first-principles calculations confirm the high electronic conductivity of Mn-d-ZMO@C cathode. Importantly, a good capacity retention (86%) is obtained with a year-old cell (after 150 cycles) at 100 mA g(-1) current density. This study, therefore, indicates that the in situ grown Mn-d-ZMO@C nanoarchitecture cathode is a promising material to prepare a durable AZIB.
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