Researchers create cobalt single-atom catalysts in porous carbon nanofibers to speed redox reactions and stop polysulfide ...

From left: UChicago chemists Mark Levin, Jisoo Woo, and Tyler Pearson discuss techniques to swap nitrogen atoms in molecules—a change often made by drug discovery chemists. Credit: Julia Driscoll For ...

Carbon-supported single-atom catalysts with metal-N moieties are promising for high-performance lithium–sulfur batteries. In a breakthrough, a team of researchers from Chung-Ang University proposes a ...

Where would carbon-based life be without carbon? There are 118 known chemical elements, but carbon is the fourth most abundant and perhaps the most important to human life. Everywhere you look, ...

A research team from the University of Oklahoma has pioneered a groundbreaking method that could accelerate drug discovery and reduce pharmaceutical development costs. Their work, published in the ...

A new reagent has moved carbon-atom transfer out of the chemical flatlands, allowing chemists to place a single carbon atom so that it makes bonds to four different substituents. The reagent makes ...

A single atom of silver working in synergy with carbon and nitrogen atoms can efficiently convert polluting nitrogenous waste ...

Together, the two methods should enable medicinal chemists to make these single-atom substitutions in a swath of common molecules, easing efforts to generate analogues of drug candidates. “This is the ...

Osaka, Japan – Pharmaceutical synthesis is often quite complex; simplifications are needed to speed up the initial phase of drug development and lower the cost of generic production. Now, in a study ...