Sodium chemical sources of current with cathods based on copper sulphides

Автор: Linnik D.C., Polishchuk T.B., Glazunova V.A., Zherebtsov D.A., Vinnik D.A., Mogila T.N., Aleshkina D.V.

Журнал: Вестник Южно-Уральского государственного университета. Серия: Химия @vestnik-susu-chemistry

Рубрика: Физическая химия

Статья в выпуске: 4 т.11, 2019 года.

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In the work, cells consisting of sodium and copper sulfides with different composition, structure, and morphology of the cathode material were investigated as chemical current sources. A decrease in the characteristic particle size of CuS from 0.4-5 μm to 10-50 nm led to an increase in the initial operating voltage from 1.87 V to 2.55 V and capacity from 166 mAh · g-1 to 400 mAh ·g-1. The superstoichiometric incorporation of sulfur into nanosized copper sulfide CuS1+x leads to a decrease in the initial operating voltage of the cell by 0.23 V, while the capacity increases from 400 mAh · g-1 to 431 mAh · g-1. In the case of sulfide of the Cu2S composition, the capacity of the cell with the sodium anode is 121 mAh · g-1, in addition, this material, like microcrystalline copper sulfide of the CuS composition, is prone to surface passivation with sulfides of variable composition. A comparative analysis of the electrochemical parameters of sodium and lithium current sources with cathode materials based on copper sulfides of different composition and morphology is carried out.

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Chemical current source, sodium anode, nanosized copper sulfide

Короткий адрес: https://sciup.org/147233151

IDR: 147233151   |   DOI: 10.14529/chem190410

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