Using nanotechnology, scientists have used mechanochemistry to develop a scalable, sustainable technique that would be more energy- and cost-efficient than current chemical manufacturing methods.

Scientists have developed synthetic molecules that resemble real organic molecules, allowing them to simulate the behavior of real molecules by using artificial molecules. In this way, they can tweak properties of molecules in ways that are normally difficult or unrealistic, and they can understand much better how molecules change.

An An international research team has challenged traditional understanding of topological phases by demonstrating that topological boundary states can remain protected and persist, even when the system no longer maintains global symmetries or quantized topological invariants.

A groundbreaking development in thin film technology promises to enhance the sensitivity of current and future gravitational wave detectors.

New grant supports work to improve microscopic imaging techniques to better visualize individual molecules, particularly those involved in Alzheimer's disease.

Scientists revealed a new approach to discover a new spin defect with an excellent probability of 85%, and achieved coherent control of an ultrabright single spin in hexagonal boron nitride at room temperature.

Physicists envision that collinear antiferromagnets could function as 'electrical circuits' with the two magnetic sublattices connected in parallel, provided they host strong coupling between magnetic atoms within the same sublattices.