Recent research published in Science introduces a promising solid electrolyte material that could improve the performance of ...

Scientists demonstrate a metal -- organic framework-based magnesium ion conductor showing superionic conductivity even at room temperature. The development of highly efficient energy storage devices ...

Superionic water—the hot, black and strangely conductive form of ice that exists in the center of distant planets—was ...

Solid electrolytes with high lithium-ion conductivity can be designed for millimeter-thick battery electrodes by increasing the complexity of their composite superionic crystals, report researchers ...

A paper has been published stating that a new form of ``superionic ice'' with an extremely high melting point, which is produced by exposing water to tremendous temperature and pressure, has been ...

The development of highly efficient energy storage devices that can store renewable energy is crucial to a sustainable future. In today’s world, solid-state rechargeable lithium ion (Li +) batteries ...

Scientists in Japan have developed a novel metal-organic, framework-based magnesium ion conductor with superionic conductivity, even at room temperature. Mg 2+ has poor solid-state conductivity ...