Molten salt synthesis (MSS) of Cu2Mo6S8-New way for large-scale production of Chevrel phases

E. Lancry; E. Levi; A. Mitelman; S. Malovany; D. Aurbach

doi:10.1016/j.jssc.2006.02.032

Molten salt synthesis (MSS) of Cu₂Mo₆S₈-New way for large-scale production of Chevrel phases

E. Lancry, E. Levi, A. Mitelman, S. Malovany, D. Aurbach

Department of Chemistry

Bar-Ilan University

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

88 Scopus citations

Abstract

The Chevrel phase (CP), Mo₆S₈, was found to be an excellent cathode material for rechargeable magnesium batteries. Mo₆S₈ is obtained by a leaching process of Cu₂Mo₆S₈, which removes the copper. A new method of Cu₂Mo₆S₈ production was developed. In contrast to the well-known solid-state synthesis of CP, the method is based on the reaction in a molten salt media (KCl). A fast kinetics of this reaction allows using less active, but more convenient precursors (sulfides instead of sulfur), decreasing temperature and synthesis duration, as well as operation in the inert atmosphere instead of dynamic evacuated systems. It was shown that the composition and the electrochemical behavior of the products obtained by MSS and by the solid-state synthesis are identical. Thus, the molten salt method is extremely attractive for the large-scale production of the active materials for Mg batteries.

Original language	English
Pages (from-to)	1879-1882
Number of pages	4
Journal	Journal of Solid State Chemistry
Volume	179
Issue number	6
DOIs	https://doi.org/10.1016/j.jssc.2006.02.032
State	Published - Jun 2006

Keywords

Chevrel phase
Mg batteries
Molten salt
Synthesis

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10.1016/j.jssc.2006.02.032

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title = "Molten salt synthesis (MSS) of Cu2Mo6S8-New way for large-scale production of Chevrel phases",

abstract = "The Chevrel phase (CP), Mo6S8, was found to be an excellent cathode material for rechargeable magnesium batteries. Mo6S8 is obtained by a leaching process of Cu2Mo6S8, which removes the copper. A new method of Cu2Mo6S8 production was developed. In contrast to the well-known solid-state synthesis of CP, the method is based on the reaction in a molten salt media (KCl). A fast kinetics of this reaction allows using less active, but more convenient precursors (sulfides instead of sulfur), decreasing temperature and synthesis duration, as well as operation in the inert atmosphere instead of dynamic evacuated systems. It was shown that the composition and the electrochemical behavior of the products obtained by MSS and by the solid-state synthesis are identical. Thus, the molten salt method is extremely attractive for the large-scale production of the active materials for Mg batteries.",

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author = "E. Lancry and E. Levi and A. Mitelman and S. Malovany and D. Aurbach",

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AU - Lancry, E.

AU - Levi, E.

AU - Mitelman, A.

AU - Malovany, S.

AU - Aurbach, D.

PY - 2006/6

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AB - The Chevrel phase (CP), Mo6S8, was found to be an excellent cathode material for rechargeable magnesium batteries. Mo6S8 is obtained by a leaching process of Cu2Mo6S8, which removes the copper. A new method of Cu2Mo6S8 production was developed. In contrast to the well-known solid-state synthesis of CP, the method is based on the reaction in a molten salt media (KCl). A fast kinetics of this reaction allows using less active, but more convenient precursors (sulfides instead of sulfur), decreasing temperature and synthesis duration, as well as operation in the inert atmosphere instead of dynamic evacuated systems. It was shown that the composition and the electrochemical behavior of the products obtained by MSS and by the solid-state synthesis are identical. Thus, the molten salt method is extremely attractive for the large-scale production of the active materials for Mg batteries.

KW - Chevrel phase

KW - Mg batteries

KW - Molten salt

KW - Synthesis

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Molten salt synthesis (MSS) of Cu₂Mo₆S₈-New way for large-scale production of Chevrel phases

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Keywords

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