Nanoparticles exhibit distinct physical and chemical properties compared to bulk materials, making them valuable in applications such as electronics, photovoltaics, catalysis, and biomedical sciences.

Nanoprecipitation, also known as solvent displacement or interfacial deposition, is a widely used method for the synthesis of nanoparticles. It involves the precipitation of a dissolved material from ...

A small shift in temperature is enough to make a new class of nanoparticles snap together, offering a novel way to deliver fragile medicines. Researchers at the University of Chicago Pritzker School ...

A new review highlights a powerful, cleaner route to produce ultra-clean, customizable nanoparticles—key building blocks for artificial sensory systems that mimic human perception and power emerging ...

Composed of five or more elements in nearly equal amounts, high-entropy alloys (HEAs) have emerged as promising catalysts due to their compositionally complex surfaces that can accelerate chemical ...

The selective bond-breaking powers of enzymes bring new versatility for building nanoparticles with a wide range of technical and medical potential. The selective bond-breaking powers of enzymes bring ...

A team of researchers succeeded in adapting an AI system to reliably assist with making nanoparticle measurements which speeds up the research process significantly. Nanoparticle researchers spend ...

In the home, the lab and the factory, electric fields control technologies such as Kindle displays, medical diagnostic tests and devices that purify cancer drugs. In an electric field, anything with ...

In inflamed corneal cells, NADPH repletion occurred within 30 minutes, accompanied by ROS suppression and immune-cell ...

Gold has captivated humanity for thousands of years as a symbol of luxury and stability. However, when you shrink this precious metal down to the nanoscale—thousands of times smaller than a single ...