When a person loses a leg above the knee, the nerves that once moved that leg don’t simply go quiet. They keep firing.

Researchers at UCLA have discovered a way to dramatically improve how electrical current enters perovskite semiconductors, an ...

A recent breakthrough in electrode technology addresses one of the key limitations of lithium iron phosphate (LFP) batteries—namely, their relatively short driving distance. Researchers from UNIST, in ...

Despite their potential, solid-state batteries struggle to replace lithium-ion due to manufacturing hurdles and performance ...

This month, researchers at University of Jyväskylä in Finland pulled off a breakthrough in hydrogen production. Led by Professor Karoliina Honkala and Senior ...

Researchers' simulations showed how and why changing the electrode potential achieves hydrogen production on TiO2 ...

Atomic-level simulations and electrochemical experiments reveal how charge centers called polarons form on semiconductor surfaces to activate green hydrogen production.

Automatic personalization of electrode placement for transcutaneous spinal cord stimulation can take it to the next level.

In new results from a clinical trial, researchers show that electrical stimulation of the spinal cord can restore the muscle control and sensory feedback required for coordinated walking movements.

Current electrochemical theory does not adequately describe realistic platinum electrodes. Scientists at Leiden University have now, for the first time, mapped the influence of imperfect platinum ...

In this work we address the relevance of the Reversible Hydrogen Electrode (RHE) to the voltammetric study of the Hydrogen Evolution Reaction (HER) under hydrogen-free conditions, this is achieved ...