NEWSROOM

Researchers from Japan achieve significant breakthrough in optoelectronics that can revolutionize next-generation photodetectors

All-solid-state batteries (ASSB) are widely recognized as a safer and potentially more energy-dense alternative to conventional lithium-ion technologies. Their performance critically depends on fast ionic conduction within solid electrolytes. Traditional methods to identify such materials involve labour-intensive synthesis and characterization processes, often hampered by the limitations of existing computational models in accurately capturing disordered, high-temperature ion

Every chemical reaction faces a barrier: for substances to react with one another, it is first necessary to supply energy. In many cases, this energy barrier is low – such as when striking a match. For many key reactions in industry, however, it is much larger – and increased energy requirements drive up production costs. To lower this barrier, chemists use “reaction helpers” known as catalysts. The best of these substances contain metals – including, in some cases, rare meta

A new study by NYU chemists finds that DNA tiles can assemble into 3D structures without the sticky cohesion of hydrogen bonding. This finding, published in Nature Communications, turns a fundamental paradigm in the field of DNA self-assembly on its head.

Advanced imaging reveals a detailed understanding of the mechanisms driving a previously misunderstood material, researchers say

The study serves as a benchmark for quantum chemical methods in modeling phosphate-containing clusters, opening new pathways for designing more efficient proton-conducting materials and understanding biological proton transfer.