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

Scientists have developed a new nanoparticle-based strategy that could dramatically expand the range of disease-causing proteins that can be targeted by modern medicine. A newly released perspective i ...

A newly published Perspective article in Nature Nanotechnology details groundbreaking nanoparticle technology to eliminate ...

New research from Cardiff University, in collaboration with Astra Zeneca, used artificial intelligence to create microscopic particles that can effectively transport medicines to precisely target and ...

Inorganic nanoparticles are nanoscale materials composed of inorganic compounds, such as metals, metal oxides, and semiconductors. These nanoparticles typically have sizes ranging from 1 to 100 ...

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 ...

Researchers developed a manufacturing technique that rapidly generates large quantities of nanoparticles coated with drug-delivering polymers, which hold great potential for treating cancer. The ...

A type of nanoparticle called a metal organic framework (MOF) could be used to deliver vaccines and act as an adjuvant. Researchers find these particles provoke a strong immune response by activating ...

Copper nanoparticles from beetroot extract enhance antimicrobial properties in polymer composites, offering a sustainable ...

Nanoremediation uses nanotechnology to tackle pollution, improving water and soil treatment through innovative nanosolutions ...