Researchers develop graphene-based dialysis membranes that enhance filtration efficiency while reducing protein loss for improved treatment.

A Vanderbilt-led research team has made a significant breakthrough in developing advanced dialysis membranes using atomically thin materials like graphene. These innovative membranes, called ...

Atomic force microscopy image of a DNA hexagonal network © PBL EPFL EPFL scientists have identified a new property, interface ...

"We wanted to make a soft material, nanoscale robot with grabbing functions that never have been seen before." Researchers ...

By fusing circular dichroism with high-resolution microspectroscopy and microscopic imaging, this cutting-edge technology is ...

Significant growth trajectory of the Breast Cancer Application segment, which is expected to reach US$374.1 Million by 2030 ...

Breakthrough study in Nature Materials reveals DNA nanorafts reshape synthetic cells for controlled membrane dynamics and ...

Nanorobotics is the technology of creating machines or robots at or close to the scale of a nanometer - 1 billionth of a ...

Scientists have translated nanoscale experimental and computational data into precise 3D representations of bacteria, yeast ...

Osaka University researchers developed an electrically controlled nanogate, enabling precise regulation of ion transport and ...

High-throughput measurement of cellular traction forces at the nanoscale remains a significant challenge in ... enabling the high-throughput quantification of cellular forces using DNA tension gauge ...

Can DNA-nanoparticle motors get up to speed with motor proteins? Researchers use the knowledge of molecular motors to enhance the nanoscale artificial motor in hopes of leveling out the speed ...