Abstract
Lithium-ion batteries have transformed our lives and are now found in everything from mobile phones to laptop computers and electric cars. In lithium-ion batteries, an adequate electrolyte was developed using a winding process nearly related to the progress of electrode chemistries. In this technology, a metal oxide is a cathode, and porous carbon is the anode. The electrochemical interaction of anode material with lithium could produce an intercalation product, which could form the basis of a revolutionary battery system. Structural retention causes this reaction to proceed quickly and with a high degree of reversibility at room temperature. Titanium disulfide is one of the latest solid cathode materials. In this review, the history of intercalation electrodes, electrolytes, and basic principles related to batteries based on intercalation processes and their effect on battery performance is reported.
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