Abstract
Lithium-sulfur batteries are promising in terms of reducing their cost and increasing specific energy. The cost reduction is possible due to the low price and availability of sulfur, and the increase of the specific energy - due to the high specific electrochemical capacity of this material, which is 1,680 mAh/g. In the future, lithium-sulfur batteries can replace modern lithium-ion batteries. In the past few years, great progress has been made in the development of lithium-sulfur batteries. The stability of cycling sulfuric electrodes is achieved by introducing nanostructured carbon materials. This article will consider an innovative method of manufacturing sulfuric electrodes based on the method of impregnation of a porous carbon matrix with sulfur solution.
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