KAUST team uses non-solvating additives to stabilise high-voltage sodium metal batteries for grid and EV storage.

This technique uses uniaxial stretching to create flame-retardant, high-performing electrolytes for next-gen batteries.

A research team affiliated with UNIST has unveiled a novel electrochemical system that converts carbon dioxide (CO₂), a major ...

A research team affiliated with UNIST has demonstrated a simple yet effective method to extend the lifespan of ...

Altech Batteries’ proprietary technology for enhancing lithium-ion battery anodes with silicon has received clear validation ...

They recover lithium from used batteries with a purity of 99.79% and simplify solid-state batteries, promoting the safety of ...

UNIST researchers improve battery life and safety with stretched polymer electrolytes for solid-state applications.

Oil became the dominant fuel for transport, industry, and the military from roughly World War I onwards. Following this ...

A new electrochemical method from UNIST efficiently transforms CO2 into formic acid, cutting energy consumption and enhancing ...

Abstract Owing to their flexibility and cost-effectiveness, solid polymer electrolytes (SPEs) offer a promising alternative to inorganic solid ...

New generation BMW iX3: 4695 battery technology for 900 km range; Kia introduces rugged off-road SUV with impressive ...

Abstract Electrochemical formate (HCOO−) production via CO2 reduction reaction (CO2RR) holds great promise for carbon-neutral energy systems; however ...