New method quickly identifies atoms that are neither carbon nor hydrogen in small molecules and resolves their chemical structures in complex mixtures.
The way the model reduces information in an increasingly complex system can be applied to make biopolymers and nanostructures.
New computer simulations reveal the explosive scene after ultra-dense stars collide, as well as where heavy elements may have originally formed.
Magnesium metal anodes display improved cycling and temperature performance capabilities for rechargeable magnesium batteries.
Finding the right dyes for a new type of solar cell can be challenging, but this study used supercomputers to speed up the process
Researchers take cues from nature to form living materials with unprecedented control and versatility.
Researchers design self-assembling nanosheets that mimic the surface of cells.
A new catalyst design meets cost, activity, and durability goals by leveraging ultralow loadings of platinum with platinum-free supports.
New methods quiet noise and reduce error in measurements of elusive quantum properties
By mimicking biological machinery with non-biological parts, artificial cells work to convert light into chemical energy.
Layer-by-layer analysis uncovers microscopic mechanisms that affect thin film magnetism important to electronics.
New approach to studying ions more accurately predicts behavior, providing insights for biological systems, environmental processes, and materials development.
