Modification of nickel sulfide by surface coating with TiO2 and ZrO2 for improvement of cycle capability

Tomonari Takeuchi; Hikari Sakaebe; Hiroyuki Kageyama; Katsumi Handa; Tetsuo Sakai; Kuniaki Tatsumi

doi:10.1149/1.3225908

Modification of nickel sulfide by surface coating with TiO₂ and ZrO₂ for improvement of cycle capability

Tomonari Takeuchi, Hikari Sakaebe, Hiroyuki Kageyama, Katsumi Handa, Tetsuo Sakai, Kuniaki Tatsumi

Research output: Contribution to journal › Article › peer-review

13 Citations (Scopus)

Abstract

TiO₂ - and ZrO₂ -coated nickel sulfide (NiS) were prepared for the improvement of cycle capability in rechargeable lithium batteries with liquid electrolytes. The cells with the TiO₂ -coated NiS showed improved cycle performance as compared with those of the noncoated NiS. This improvement was attributable to the improved structural reversibility of the active materials with Li+ insertion/extraction reactions, which might be due to the stabilization of the active materials by TiO₂, and also attributable to the suppression of sulfur dissolution in the liquid electrolytes. ZrO₂ coating on the NiS surface was not effective for improving the cyclability of the cells, which was attributable to the increase in the amount of metallic Ni clusters, not contributing to the electrochemical redox reactions, when charging.

Original language	English
Pages (from-to)	A958-A966
Journal	Journal of the Electrochemical Society
Volume	156
Issue number	11
DOIs	https://doi.org/10.1149/1.3225908
Publication status	Published - 2009
Externally published	Yes

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Renewable Energy, Sustainability and the Environment
Surfaces, Coatings and Films
Electrochemistry
Materials Chemistry

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1149/1.3225908

Cite this

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abstract = "TiO2 - and ZrO2 -coated nickel sulfide (NiS) were prepared for the improvement of cycle capability in rechargeable lithium batteries with liquid electrolytes. The cells with the TiO2 -coated NiS showed improved cycle performance as compared with those of the noncoated NiS. This improvement was attributable to the improved structural reversibility of the active materials with Li+ insertion/extraction reactions, which might be due to the stabilization of the active materials by TiO2, and also attributable to the suppression of sulfur dissolution in the liquid electrolytes. ZrO2 coating on the NiS surface was not effective for improving the cyclability of the cells, which was attributable to the increase in the amount of metallic Ni clusters, not contributing to the electrochemical redox reactions, when charging.",

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T1 - Modification of nickel sulfide by surface coating with TiO2 and ZrO2 for improvement of cycle capability

AU - Takeuchi, Tomonari

AU - Sakaebe, Hikari

AU - Kageyama, Hiroyuki

AU - Handa, Katsumi

AU - Sakai, Tetsuo

AU - Tatsumi, Kuniaki

PY - 2009

Y1 - 2009

N2 - TiO2 - and ZrO2 -coated nickel sulfide (NiS) were prepared for the improvement of cycle capability in rechargeable lithium batteries with liquid electrolytes. The cells with the TiO2 -coated NiS showed improved cycle performance as compared with those of the noncoated NiS. This improvement was attributable to the improved structural reversibility of the active materials with Li+ insertion/extraction reactions, which might be due to the stabilization of the active materials by TiO2, and also attributable to the suppression of sulfur dissolution in the liquid electrolytes. ZrO2 coating on the NiS surface was not effective for improving the cyclability of the cells, which was attributable to the increase in the amount of metallic Ni clusters, not contributing to the electrochemical redox reactions, when charging.

AB - TiO2 - and ZrO2 -coated nickel sulfide (NiS) were prepared for the improvement of cycle capability in rechargeable lithium batteries with liquid electrolytes. The cells with the TiO2 -coated NiS showed improved cycle performance as compared with those of the noncoated NiS. This improvement was attributable to the improved structural reversibility of the active materials with Li+ insertion/extraction reactions, which might be due to the stabilization of the active materials by TiO2, and also attributable to the suppression of sulfur dissolution in the liquid electrolytes. ZrO2 coating on the NiS surface was not effective for improving the cyclability of the cells, which was attributable to the increase in the amount of metallic Ni clusters, not contributing to the electrochemical redox reactions, when charging.

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