For more than 50 years, scientists have sought alternatives to silicon for building molecular electronics. The vision was ...

In the pharmaceutical discovery process, understanding a drug’s residence time—the duration a molecule remains bound to its ...

The Taurus Molecular Cloud (TMC-1) imaged by the Herschel Space Observatory. (Credit: ESA/Herschel/NASA/JPL-Caltech; acknowledgement: R. Hurt, JPL-Caltech; CC BY-SA 3 ...

Hydrogen production through water electrolysis is a cornerstone of the clean energy transition, but it relies on efficient ...

Verdazyl radicals represent a unique class of stable organic radicals, distinguished by their robust tetrazinyl core and open‐shell electronic structure. Their inherent stability, combined with ...

Scientists at the University of Chicago and partner institutions have developed molecular qubits compatible with standard telecommunications networks—a key step toward a future “quantum internet.” The ...

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 ...

The world's most expensive infrared spectrometer - the James Webb Space Telescope - is unearthing extraordinary exoplanet chemistry. James Mitchell Crow looks to the skies ...

Members of the Nobel Committee for Chemistry hold a model of a metal-organic framework during the 2025 prize announcement in Stockholm on October 8. Jonathan Nackstrand / AFP via Getty Images Three ...

A nanoscale junction forces molecules into reactive configurations, allowing a small voltage to catalyze a chemical transformation that normally requires ultraviolet light.

This is read by an automated voice. Please report any issues or inconsistencies here. Three scientists won the Nobel Prize in chemistry for developing metal-organic frameworks that could help reduce ...