Theory, computation, and simulation are foundational to modern energy research. Theoretical understanding reveals why materials and systems behave as they do, predicting performance before experiments ...

Researchers have used artificial intelligence to predict dozens of previously unknown carbon crystal structures, including at ...

The model has the potential to transform the ability to study telomere biology, learn more about human aging, and ultimately help people preserve better health as they age.

A new computational tool infers changes occurring at the ends of the chromosomes housing our DNA. It does so by detecting ...

Space exploration has always captivated our imagination, offering the promise of discovering new worlds and pushing the boundaries of human capability. As commercial space travel becomes more ...

The new model developed by Flatiron Institute researchers proposes that biological neurons have more control over their surroundings than previously thought, something that could be replicated in the ...

Researchers have discovered a new way to drive chemical reactions that could generate a wide variety of azetidines -- four-membered nitrogen heterocycles that have desirable pharmaceutical properties.

Over the past decades, neuroscience studies have painted an increasingly detailed picture of the human brain, its organization and how it supports various functions. To plan and execute desired ...

This framework was applied to neural recordings from animals receiving one of the three anesthetics—propofol, ketamine, and dexmedetomidine.

Using computational modeling, a research team has developed a novel peptide (MLPH) that promotes hair growth without the side ...