Abstract: Electric vehicles (EVs) are often powered by lithium-ion batteries. To ensure the reliability of EVs, it is essential to model and predict the remaining useful life of these batteries.

The global push for sustainable energy just got a big jolt. On October 17, 2025, Technische Universität Braunschweig (TU ...

Hydrogen production from water may seem straightforward: splitting water into hydrogen and oxygen gases using an electric ...

The pH, or the acidity or alkalinity of an environment, has long been known to affect how efficiently catalysts drive key electrochemical reactions. Yet despite decades of research, the atomic-scale ...

The research team has developed a novel process that extracts 100 percent pure hydrogen from ammonia at low temperatures.

A research team from UNIST has unveiled a novel technology capable of extracting hydrogen (H₂) stored in ammonia (NH₃) by ...

Abstract: State-of-charge (SOC), as a fundamental indicator for the remaining capacity of lithium-ion batteries (LBs) in electric vehicles, is of great significance for LBs’ operation optimization and ...

New solid-state batteries will be made from a new "highly durable" cathode material and will power a car for much longer than ...

In a study published Sept. 18 in the journal Science, the scientists noted that this battery can operate at 194 degrees F (90 ...

A new MIT study reveals the exact mechanisms of lithium-ion battery charging, paving the way for faster, longer-lasting, and ...

Every few weeks, it seems, yet another lab proclaims yet another breakthrough in the race to perfect solid-state batteries: ...

Knowable Magazine reports solid-state batteries promise improved EV performance with faster charging and longer ranges, but ...