The grant supports Dr. Zhiyue Lu's research into how life-like behaviors emerge from inanimate matter.

UNC chemists introduced a novel principle: thermal-kinetic frustration, which allows a molecule to behave like a tiny, programmable computer.

A CHASE-supported UNC study represents a significant step forward in designing more efficient carbon dioxide reduction systems.

In a Nature study, a UNC chemist has introduced a novel chemical method for breaking down rubber waste.

Researchers have developed a promising method to make radiotracers faster, more efficiently and with less waste.

In a pioneering approach to cancer treatment, a North Carolina startup—dGenThera—has developed a targeted radiotherapeutic based on astatine-211, an alpha-emitting isotope.

Arthur Palmer discussed how proteins shift their shapes and why that matters for their function as part of a Biochemistry & Biophysics seminar series.

UNC Chapel Hill graduate student Charlotte Montgomery investigates how molecular catalysts precisely move protons and electrons to drive chemical reactions and produce alternative fuels.

Herein, an approach for discriminating between tardigrade morphological states is developed and utilized to compare sucrose- and CaCl2-induced tuns, using the model species Hypsibius exemplaris.

Herein, we disclose a backbone rearrangement approach to tune the short-chain branching of polymers.

A new homoleptic Ru polypyridyl complex bearing two aldehyde groups on each bipyridine ligand, [Ru(dab)3](PF6)2, where dab is 4,4′-dicarbaldehyde-2,2′-bipyridine, was synthesized, characterized, and utilized for iodide photo-oxidation studies.

Here, we propose a model where the relaxation of polymer gels in the dilute regime originates from elementary events in which the bonds connecting two neighboring cross-linkers all disconnect.