Researchers at the University of Basel have shown that quantum systems can have antagonistic interactions, too—one agent ...

The amorphous state of matter is the most abundant form of visible matter in the universe, and includes all structurally ...

(Colloids are mixtures of substances where nanoscopic or microscopic insoluble particles are dispersed throughout another substance. Examples are milk, smoke and gelatin.) Machine learning was ...

Fluids containing nano- to micrometer scale “colloidal” particles are found universally in nature and technology. Coatings, consumer products, filters, cosmetics, food, pharmaceuticals, and numerous ...

The colloidal silver market is growing due to rising demand in health, cosmetics, and industrial sectors, with emerging trends and regulatory challenges.

Here, the authors report the presence of topological defects in the vibrational eigenspace of an experimental two-dimensional colloidal glass. Harnessing biomolecular systems to endow synthetic ...

Colloidal nanoparticles are particles that operate at the nanoscale, specifically between 1 to 1000 nanometers, suspended in a fluid. These nanoparticles can consist of various materials, such as ...

Our scientific interests encompass different branches of soft condensed matter and optical physics, including novel laser trapping and imaging techniques, molecular and colloidal self-assembly, ...

have developed a new method to recycle the valuable semiconductor colloidal quantum dots used to fabricate supraparticle lasers. The recovered particles can be reused to build new lasers with a ...

We combine topology and active matter paradigms in an effort to achieve topology-dictated nonequilibrium self-assembly of topologically distinct active particles. Active colloids are a distinct ...