Lithium (Li)-ion batteries have stimulated the societal transformation to clean energy
systems. This carry-on electricity is revolutionizing how society communicates, functions …

Calcium rechargeable batteries based on divalent charge carriers have the potential to meet
the future demands on large-scale energy storage applications, due to the crustal …

Accessing the energy density and sustainability of calcium metal batteries requires
mastering reversible calcium electrodeposition through electrolyte design. Several …

Abstract Develo** Li/Na hybrid ion batteries that combine both the superiorities of lithium-
ion batteries (LIBs) and sodium-ion batteries (SIBs) is an unremitting pursuit for large-scale …

The Ca2+ solvation structure at the electrolyte/electrode interface is of central importance to
understand electroreduction stability and solid–electrolyte interphase (SEI) formation for the …

Abstract All‐solid‐state‐batteries (ASSBs) based on a halide solid electrolyte (SE) and a
lithium‐metal based anode typically have poor cyclability without a buffer layer (such as …

Polyanion phosphates exhibit great potential as calcium-ion battery (CIB) cathodes,
boasting high working voltage and rapid ion diffusion. Nevertheless, they frequently suffer …

Next‐generation battery technologies need to consider their environmental impact
throughout the whole cycle life, which has brought new chemistries based on earth …

Calcium batteries (CBs) are potential next-generation energy storage devices, offering a
promising alternative to lithium-ion batteries due to their theoretically high energy density …

Rechargeable multivalent‐ion batteries are attractive alternatives to Li‐ion batteries to
mitigate their issues with metal resources and metal anodes. However, many challenges …