Journal
JOURNAL OF APPLIED ELECTROCHEMISTRY
Volume 48, Issue 7, Pages 793-800Publisher
SPRINGER
DOI: 10.1007/s10800-018-1196-0
Keywords
Charge-discharge cycling; Ex situ XRD; GITT; Ni-doped layered MnO2; Sodium-ion batteries
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Funding
- Vietnam National University of Ho Chi Minh City [C2016-18-03]
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Birnessite MnO2, a hydrated layered manganese dioxide with a layered structure, is a promising candidate for sodium-ion batteries because of a significant interlayer distance for the reversible insertion of sodium ions. This work proposes to improve the electrochemical performance of layered manganese dioxide by metal cation doping. Nickel-doped layered MnO2 (0.05-0.15 wt%) prepared by a sol-gel method using a chelate agent of fumaric acid showed a gradual increase of interlayer distance with an increase of Ni-doping amount. Moreover, ex situ XRD results during the first cycle confirmed a stabilization of the layered structure during the sodium insertion. During the charge-discharge test, the initial capacity of 15% Ni layered MnO2 was 140 mAh/g, with small capacity fade over 20 cycles. Layered structure of MnO2 and sodium diffusion along [001] and [010] direction. [GRAPHICS] .
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