Micrometre-sized particles are key elements of several technologies ranging from drug-delivery vehicles to microelectronics, which makes optimizing the fabrication of these particles big business. One ...

Engineers at Cornell University have developed a new technique for 3D printing metallic objects – and it involves blasting titanium particles at supersonic speeds. The resulting metals are very porous ...

3D printed microparticles have a variety of uses, including the development of microelectronics and pharmaceuticals, and the manufacturing of complex parts, but they require precise control and manual ...

An impressive synth even in the stereo version, the full SkyDust 3D really is innovative and impressive stuff. MusicRadar's got your back Our team of expert musicians and producers spends hours ...

Stanford's latest breakthrough in 3D printing technology enables the production of one million dust-sized particles per day. While 3D printing has gained widespread adoption on a macroscale level, ...

Researchers have discovered that the junctures at the facet edges of 3D semiconductor particles have 2D properties, which can be leveraged for photoelectrochemical processes -- in which light is used ...

(Nanowerk Spotlight) Each year, millions of people miss crucial vaccine booster shots, undermining the effectiveness of immunization programs worldwide. The challenge stems from a fundamental ...

Consumer-grade 3D printers have grown in popularity in recent years, but the particles emitted from such devices can negatively impact indoor air quality and have the potential to harm respiratory ...

Forget your regular ol’ 3D printer. Why not try using sound waves to form a 3D object? That’s exactly what researchers in Germany set out to do, making use of “acoustic holograms” to form distinct 3D ...

The sky is not the limit for Sound Particles. We catch up with CEO Nuno Fonseca about the company's plans for a spatial future When you purchase through links on our site, we may earn an affiliate ...

A levitating magnetic microrobot autonomously sorts sub-millimeter particles by weight in 3D environments, enabling precise, contamination-free handling in biomedical and manufacturing applications.