A new study has revealed significant insights into the intermolecular mechanisms involved in the dissolution of organic electrode materials (OEMs) within electrolytes during battery cycling tests.

Assembling DNA nanostructures at more moderate temperatures opens up the possibility of using the structures in biomedical ...

A new strategy for recycling spent lithium-ion batteries is based on a hydrometallurgical process in neutral solution. This ...

As global demand for lithium skyrockets, this newly devised method could be a huge boon for lithium production.

The ion transport system plays a vital role in maintaining essential physiological functions. For individuals with kidney ...

Eye diseases often develop asymptomatically for many years. ICTER scientists have developed the f-ORG technique, which ...

The use of glycine in a neutral solution enhances lithium extraction from spent batteries, offering a sustainable alternative ...

Researchers have developed a new method for recycling spent battery materials that can extract 99.99% of the lithium from ...

Earth’s core could contain helium from the early solar system. The noble gas tucks into gaps in iron crystals under high pressure and temperature.

The NCM particles are mixed with an iron(II) salt, sodium oxalate ... drives an electrochemical reaction in which the iron(II) ions are oxidized to iron(III) ions and oxygen ions from the oxidic ...