In nanoscale particle research, precise control and separation have long been a bottleneck in biotechnology. Researchers at ...

When we think about heat traveling through a material, we typically picture diffusive transport, a process that transfers ...

Researchers developed a microfluidic method that combines electric-field-driven flow and viscoelastic forces to improve ...

A microfluidic approach combines electric slip and viscoelastic forces to sort nanoscale particles, increasing the purity of synthetic beads and cell vesicles.

Researchers have developed a new type of porous microneedle that can extract interstitial fluid from skin faster than ever before, without drawing ...

When we think about heat travelling through a material, we typically picture diffusive transport, a process that transfers heat from high-temperature ...

The primary cause was likely the microgravity itself, since that environment prevents convection—the natural movement of ...

Space-based experiments show that microgravity-induced mutations in bacteriophages may improve their ability to target antibiotic-resistant bacteria on Earth.

Ultrathin titanium flow distributors made via laser micromachining achieve record fuel cell power densities, surpassing European aerospace targets set for the end of this decade.

Mass spectrometry (MS) has long been a cornerstone of chemical and biological analysis, but in biotech and biomanufacturing, it is now experiencing a renaissance. As drug modalities diversify—peptides ...

AI research lab startup Decart is pitching a new class of “world model” that can generate high-quality video sequences ...