Researchers reveal new mechanisms governing the storage and the movement of sodium ions in hard carbon nanopore anodes.

Scientists have discovered the potential existence of a bizarre new molecule related to water. Dubbed “aquodiium,” this ion could form under extreme conditions and may explain some of the weirdness of ...

Japanese researchers used supercomputer simulations to reveal how sodium ions form clusters and move within hard carbon anodes, identifying nanopore sizes and transition regions that control diffusion ...

Until now, new battery types such as sodium-ion batteries have often been seen in politics and media as an opportunity to quickly catch up on technological ...

Ankur Gupta receives funding from NSF. Modern life relies on electricity and electrical devices, from cars and buses to phones and laptops, to the electrical systems in homes. Behind many of these ...

Rubidium could be the next key player in oxide-ion conductors. Researchers at Institute of Science Tokyo have discovered a rare rubidium (Rb)-containing oxide-ion conductor, Rb₅BiMo₄O₁₆, with ...

Supercomputer-based simulations reveal the intricacies of sodium-ion clustering and transport in hard carbon nano-pores, report researchers from ...