UNC and Purdue scientists designed a special material that can carry spin currents over long distances without the need for chemical doping or unstable components.

UNC chemists developed a new method to produce esters and carboxylic acids using visible light and a cheap, earth-abundant metal catalyst: cobalt.

Chris Killian's story is about the quiet and confident clarity that he has gained from overcoming a serious illness and getting a second chance at living a full life.

First-year Ph.D. student Samantha Bell is investigating the danger of inhaling toxic air from harmful algae blooms.

Courtney John's daily life is a blend of cutting-edge chemical research and tireless leadership in service to her department and peers.

In UNC Chemistry, a new kind of experiment is taking shape—one that melds the rigor of synthetic chemistry with the beauty of art conservation.

A new light-driven method dramatically simplifies and accelerates the synthesis of stemoamide alkaloids, a class of bioactive compounds found in plants.

In their study, the UNC team focused on just one kind of protein called GB1, a small, well-studied globular protein often used as a model.

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.