Abstract
The popularization of electric vehicles and the increasing use of electronic devices highlight the importance of fast charging technology. The charging process of lithium secondary battery is basically limited by a series of processes on the anode side, which include desolvation of lithium ions as well as lithium diffusion through SEI and the anode material. These series of reactions are kinetically sluggish, leading to insufficient power density. Therefore, to unravel this problem, we need to either accelerate each step or skip over some of the steps to make the whole charging process shorter. A solvated ion cointercalation into graphite has turned out to successfully exclude both desolvation of lithium ions and SEI film formation to achieve high kinetics with graphite. Herein, the solvated ion cointercalation into MoS2 demonstrated that it can help to remove desolvation of alkali ions as well as SEI formation, and thereby ultrahigh kinetics and long-term cyclability are attained by the characteristic ps...
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