Researchers created a 350nm-thick bioelectronic film that turns soft when wet to stick to hearts and brains without glue, revolutionizing medical monitoring.

D printing creates hydrophobic barriers in hydrophilic paper, guiding liquids along precise paths for controlled mixing, gradients, and two-phase separation.

Researchers made iron telluride into a superconducting thin film by reducing crystal distortion, enabling use in quantum ...

A 3D-printed Janus microchannel heat sink inspired by desert beetles enables ultrafast bubble removal and prevents CPU thermal throttling.

Researchers have for the first time used lasers to continuously tune 2D materials' magnetic properties, enabling new data ...

A comprehensive report lays out a detailed science strategy to guide the initial human missions to the red planet.

Using the James Webb Space Telescope, a team of international researchers have discovered chemical fingerprints of gigantic ...

Highly energized gas loses electrons, forming plasma, the fourth state of matter. While we associate plasmas with heat, icy ...

Scientists discover 'hot spots' around atomic defects in diamonds, challenging assumptions about the world's best heat ...

Diamond nanoparticles containing nitrogen-vacancy centers can now monitor cellular metabolism in real time, targeting ...

Scientists boosted brain-computer interface performance by 2x using nanoparticles to deliver anti-inflammatory drugs directly ...

New ion beam fabrication uses low cost materials to form vertical nanomagnets whose nanostrip geometry boosts sensitivity to ...