There is more than one way to describe a water molecule, especially when communicating with a machine learning (ML) model, says chemist Robert DiStasio. You can feed the algorithm the molecule's ...

Liquids and solutions are complex environments—think, for example, of sugar dissolving in water, where each sugar molecule becomes surrounded by a restless crowd of water molecules. Inside living ...

Scientists have developed a new technique that doubles the amount of hydrogen produced when splitting water molecules with ...

Having considered localization of respiratory functions in mitochondria and in prokaryotic cells, it's time to return to the eukaryotic context and follow a molecule of pyruvate across the inner ...

A novel dye-sensitized photocatalyst developed at Science Tokyo enables the capture of long-wavelength visible light for ...

Inside your cells, mitochondria keep you alive by turning food into usable energy. Researchers from the University of ...

Japanese scientists unveil a catalyst that turns CO₂ into liquid methanol at room temperature with 100% efficiency.

A novel dye-sensitized photocatalyst developed at Science Tokyo enables the capture of long-wavelength visible light for ...

Researchers have created a dye-sensitized photocatalyst that captures long-wavelength visible light to double solar hydrogen ...

Life may have emerged from a surprisingly simple network of chemical reactions long before cells or genes existed.

Ocean Optics reports on how spectroscopy revolutionizes research by utilizing light to analyze materials, improving accuracy ...

In 1958, when chemist Ronald Breslow proposed a theory about vitamin B1, people found it impossible to believe. It turns out that the idea wasn't that crazy after all. Chemists have pulled off an ...