The recent development of sodium-ion batteries (SIBs) represents one of the most significant technological advancements in the context of energy storage because of the high energy/power densities of ...

Understanding the mechanisms of nanoparticle interaction with cell membranes is essential for designing materials for applications such as bioimaging and drug delivery, as well as for assessing ...

High-energy-density lithium-ion batteries are essential for next-generation electric vehicles and energy storage systems.

Ion-pairing assemblies and anion receptors constitute a rapidly evolving area in supramolecular chemistry, whereby the mutual recognition and assembly of oppositely charged molecules underpins the ...

An international team of collaborators has made the first direct observation of the anionic redox reaction in a lithium-rich battery material. The research opens up pathways for improving existing ...

Metal catalysts are widely used in the production of drugs, dyes, adhesives, and plastics. Researchers have now discovered an intriguing property of nickel as a catalyst: it is able to catalyze the ...

Innovative structural designs in all-solid-state batteries by KAIST researchers boost performance and safety while reducing ...

Chromatography is the science of separating molecules of interest to identify, quantify or even purify them. Properties of the target molecules such as their solubility, size or hydrophobicity give ...