Threads or ropes can easily be used for braiding, knotting, and weaving. In chemistry, however, processing molecular strands ...

What if a complex material could reshape itself in response to a simple chemical signal? A team of physicists from the ...

The glycocalyx surrounds each cell in the human body like a coat. This complex sugar layer plays a key role in the ...

Ionic liquids (ILs) are a class of molten salts with a collection of exciting properties, which have been employed for wide-ranging applications ...

MIT and Recursion have released Boltz-2, the first biomolecular co-folding model that simultaneously predicts molecular structure and binding affinity with remarkable accuracy, approaching that of ...

Brain ion channels have molecular memory, changing shape after repeated signals, affecting neurotransmitter release.

The (molecular) shape of you New methods allow scientists to use a powerful technique known as cryo-EM to examine proteins that have been difficult to study so far.

Apr 01, 2025 Molecular modeling reveals how nanocrystals take shape The shape of tiny silver seeds made of fewer than 200 atoms depends on their precise size and temperature and defines the shape of ...

Catching aromaticity in the act: Direct real-time tracking of how 'excited-state aromaticity' drives molecular shape changes Date: March 12, 2025 Source: National Institutes of Natural Sciences ...

If successful, this tiny molecule could play a massive role in shaping the future of food security worldwide. The study is published in the journal Nature Communications. —– Like what you read?

Large-scale production of organic solar cells with high efficiency and minimal environmental impact. In the study, the researchers studied molecule shape and interaction in organic solar cells.