Discharging Behavior of Hollandite α-MnO2 in a Hydrated Zinc-Ion Battery

被引:0
|
作者
Le, Thanh [1 ]
Sadique, Nahian [1 ,2 ]
Housel, Lisa M. [2 ,3 ]
Poyraz, Altug S. [4 ]
Takeuchi, Esther S. [1 ,2 ,3 ,5 ]
Takeuchi, Kenneth J. [1 ,2 ,3 ,5 ]
Marschilok, Amy C. [1 ,2 ,3 ,5 ]
Liu, Ping [1 ,6 ]
机构
[1] Department of Chemistry, State University of New York at Stony Brook, Stony Brook,NY,11794, United States
[2] Institute for Electrochemically Stored Energy, State University of New York at Stony Brook, Stony Brook,NY,11794, United States
[3] Interdisciplinary Science Department, Brookhaven National Laboratory, Upton,NY,11973, United States
[4] Department of Chemistry, Kennesaw State University, Kennesaw,GA,30144, United States
[5] Department of Materials Science and Chemical Engineering, State University of New York at Stony Brook, Stony Brook,NY,11794, United States
[6] Chemistry Department, Brookhaven National Laboratory, Upton,NY,11973, United States
来源
ACS Applied Materials and Interfaces | 2021年 / 13卷 / 50期
基金
美国国家科学基金会;
关键词
Density functional theory - Zinc - Cathodes - Ions - Manganese oxide - Electric batteries;
D O I
暂无
中图分类号
学科分类号
摘要
Hollandite, α-MnO2, is of interest as a prospective cathode material for hydrated zinc-ion batteries (ZIBs); however, the mechanistic understanding of the discharge process remains limited. Herein, a systematic study on the initial discharge of an α-MnO2 cathode under a hydrated environment was reported using density functional theory (DFT) in combination with complementary experiments, where the DFT predictions well described the experimental measurements on discharge voltages and manganese oxidation states. According to the DFT calculations, both protons (H+) and zinc ions (Zn2+) contribute to the discharging potentials of α-MnO2 observed experimentally, where the presence of water plays an essential role during the process. This study provides valuable insights into the mechanistic understanding of the discharge of α-MnO2 in hydrated ZIBs, emphasizing the crucial interplay among the H2O molecules, the intercalated Zn2+ or H+ ions, and the Mn4+ ions on the tunnel wall to enhance the stability of discharged states and, thus, the electrochemical performances in hydrated ZIBs. © 2021 American Chemical Society
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页码:59937 / 59949
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