Chunlei Jiang

TL;DR: A reversible calcium alloying/de-alloying reaction with the tin anode has been coupled with the intercalation/ de-intercalation of hexafluorophosphate in the graphite cathode to enable a calcium-ion battery that operates stably at room temperature.

TL;DR: This article will detailedly review the development history and current situations of Dual-ion batteries, and discuss all the reaction kinetics involved in DIBs, including various anionic intercalation mechanism of cathodes, and kinetic reaction mechanism of anodes including intercalated, alloying, etc. to explore promising strategies towards low-cost DIB's with high performance.

TL;DR: A flexible interface design to regulate the stress distribution is proposed, via the construction of a silicon anode on a soft nylon fabric modified with a conductive Cu-Ni transition layer, which endows the silicon electrode with remarkable flexibility and stability over 50 000 bends.

TL;DR: In this paper, the authors outline the challenges involved in these emerging rechargeable batteries, and special focuses are on the applications of multi-ion strategies in merging rechargeable battery, in which they elaborate and discuss in detail the enhanced effect of multion strategies on electrochemical performance.

TL;DR: The results presented clearly indicate the feasibility of this multi-ion strategy to improve the electrochemical performance of SIBs for possible energy storage applications.