Lithium silicate liquid service has lithium ions, silica fragments, and water. These elements mix to form a stable fluid. The ...

At first, the battery in your phone or electric car works just fine. It charges, discharges, and recharges with smooth ...

Single-atom catalysts (SACs), with their excellent metal atom utilization and unique physicochemical properties, hold promise ...

Detecting electrolyte leakage is an effective early warning approach for abnormal faults in lithium-ion batteries (LIBs).

A modified manufacturing process for electric vehicle batteries, developed by University of Michigan engineers, could enable ...

Groundbreaking research reveals a hidden degradation mechanism in lithium-ion batteries, offering insights for extending battery life through discharge control.

Promising advances in nuclear fusion have sparked renewed interest in this technology as a sustainable energy source and ...

Scientists have achieved a significant leap in aqueous Mg-ion battery technology by engineering a breakthrough cathode ...

LLZO-based solid-state batteries show limited energy density gains and face production challenges; hybrid electrolytes may be ...

A research team has identified a previously unknown degradation mechanism that occurs during the use of lithium-ion batteries ...

Innovations in metal surface engineering are enhancing battery life, efficiency, and safety. Learn how these techniques ...

A new Bi2O3/rGO composite boosts lithium-sulfur battery performance at -60?°C. Learn how this material enhances Li2S ...