A new vapor-phase method creates solvent-free amorphous organic nanoparticles in a single step, offering precise control over morphology and improved dissolution without additives or stabilizers.

A research team from Osaka Metropolitan University have developed a donor-acceptor-donor molecule that can spontaneously self-assemble into nanoscale structures and offer a more stable route to ...

(Nanowerk Spotlight) The field of high-entropy alloys (HEAs) has emerged as a promising frontier in materials science, offering unique properties that surpass those of traditional alloys. Unlike ...

Chinese scientists have, for the first time, captured at the nanoscale the dynamic process by which natural gold ...

With their tunable properties, nanoparticles can form extremely complicated structures like superlattices and supercrystals when organized precisely. These assembled structures often display unique ...

Nanocrystals are crystalline particles with sizes in the range of 1 and 1000 nm and possess many unique properties. These nanoparticles are applied across many areas of science and engineering, ...

Precise control over crystallization is essential if the resulting crystals are to be suitable for use as optoelectronic materials, but achieving that control can be difficult. Producing lead halide ...