Researchers from the Max Planck Institute for Extraterrestrial Physics in Germany and the Centro de Astrobiología, part of ...

Inserting, removing or swapping individual atoms from the core of a molecule is a long-standing challenge in chemistry. This ...

Computational chemistry and molecular modeling form the backbone of modern theoretical and applied chemical science. These fields utilise advanced quantum mechanical methods and simulation techniques ...

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 ...

Vesicle-based prototissue fibers can be shaped into specific patterns through controlled assembly. Researchers demonstrated this by creating letter-shaped patterns at the microscale, showcasing the ...

A new study identifies how water becomes ionized under electrochemical conditions. Hydrogen is expected to play a major role ...

For more than 50 years, scientists have sought to find alternatives to silicon to build molecular electronics. The vision was elegant; the reality proved far more complex. Within a device, molecules ...

Chemists at UCLA are showing that some of organic chemistry’s most famous “rules” aren’t as unbreakable as once thought. By ...

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 ...

The 2025 Nobel Prize in Chemistry has been awarded for a versatile technology that can be used for an astonishing variety of purposes, from environmental remediation to drug delivery and energy ...

Seeing chemistry unfold inside living cells is one of the biggest challenges of modern bioimaging. Raman microscopy offers a ...