A 2D material called chromium oxychloride dramatically outperforms traditional hard masks in chip fabrication, resisting plasma etching far better at nanoscale thicknesses.

A new review outlines design principles and applications of synthetic membraneless organelles built through liquid-liquid phase separation for use in biotechnology.

The GPCRact AI model goes beyond AlphaFold3 by predicting whether drugs functionally activate G-protein-coupled receptors through allosteric signaling.

A graphene membrane uses sunlight to separate lithium from magnesium-rich brine, achieving 28-fold enrichment without electricity or pumps.

Study compares calcium phosphate mineralization on polydopamine and zein coated titanium dioxide nanoparticles using quartz crystal microbalance measurements.

Researchers developed hair-thin polymer fibers that bend and contract with electricity, enabling soft robotic actuators that can be woven into textiles.

Neutron star collision in merging galaxies reveals how cosmic destruction forges heavy elements like gold, offering clues to the universe's chemical evolution.

Tracking ultrafast charge rearrangement during molecular breakup using time-resolved X-ray photoelectron spectroscopy.

Scientists developed a new mRNA platform that keeps vaccines and therapies effective in older adults and patients with obesity, where current treatments often lose potency.

Researchers developed a thumbnail-sized chip integrating laser and optics for portable biosensors, enabling point-of-care biomolecular testing outside labs.

Engineers found a surprising link between graphene electrons and magnetic spin waves in magnonic crystals, offering new insights for RF technology and both fields.

Magnetoelectric nanoparticles embedded in a hydrogel and delivered by a threaded acupuncture needle activate mast cells under ...