Assessing hyperfine shifts in paramagnetic NMR spectra provides new details on the covalent character of halogen bonded ...

Simulations comparing aluminum oxide models with differing amounts of corrugation demonstrate the significance of hydroxyl ...

Inside what looks like a simple block of frozen water, quantum mechanics is quietly rewriting the rules of chemistry. New ...

A phosphorescent liquid-crystal elastomer combines shape change with persistent afterglow, enabling soft materials that visibly track motion, encode hidden patterns and respond to heat or targeted ...

Constructing out-of-equilibrium molecular assemblies that deviate from thermodynamic equilibrium is a central challenge in ...

Researchers from Tokyo Metropolitan University have revealed how a catalyst in a promising chemical reaction for industry helps make ammonia, a major ingredient in fertilizer. Copper oxide is a key ...

The addition of BCF in perovskite synthesis boosts solar cell performance and stability, accelerating the advancement of ...

Out-of-equilibrium states that deviate from thermodynamic equilibrium are crucial not only for biological systems but also ...

ACS Nano is a science journal that publishes cutting-edge research about super tiny materials and technologies — such as ...

A team led by Cleveland Clinic’s Kenneth Merz, PhD, and IBM’s Antonio Mezzacapo, PhD, is developing quantum computing methods to simulate and study supramolecular processes that guide how entire ...

With the potential for use as a protective coating to prevent solar cells and other infrastructure from corrosion, or to ...

Ag-doped ZnO nanoparticles form a hydrogen sensor with exceptional sensitivity and rapid response, crucial for effective ...