With countless material candidates and limited lab time, a digital materials ecosystem combines AI and multiple tools into ...

An extensive computational study predicts that gold nanoclusters could selectively recognize chiral biomolecules. This ...

By placing single-atom p-block metal adlayers on gold electrodes, researchers quantified the interfacial hopping integral, establishing a universal descriptor for single-molecule junction conductance.

Atomic-level simulations and electrochemical experiments reveal how charge centers called polarons form on semiconductor surfaces to activate green hydrogen production.

Researchers directly observed electron-hole pairs in light-emitting electrochemical cells, finding that ion-driven electric field changes affect recombination and that stable, lower-voltage fields ...

Researchers developed a method that gradually adds and removes atoms in simulations, enabling realistic modeling of crystal defects that affect material strength.

A single flat metalens now handles both excitation and fluorescence collection for diamond quantum sensors, enabling ...

Researchers developed a capsule-based method to analyse the same cell across multiple experiments, overcoming a key limitation and enabling new single-cell disease studies.

Nanogel gives stem cells room to breathe Nanogel integrated spheroids increase cell retention and repair injured swallowing muscles. (Nanowerk News) Swallowing is a ...

Silica nanoparticles may make oral insulin possible by safely enhancing drug absorption through the intestinal wall in obese mice.

Researchers combine 3D image recognition with language models so AI can integrate into any robot, using continuous probability calculations to guide searches.

Beyond graphene, a new class of 2D materials called MXenes shows promise for energy storage and medicine, with recent breakthroughs in modeling and synthesis.