Bismuthene nanodiscs use mild heat to switch on gene editing that dismantles a tumor's heat defenses, creating a feedback loop that kills cancer cells more effectively.

Densely packed polymer chains can spontaneously start moving in one direction, even without being pushed, a finding that could explain DNA behavior and inspire new smart materials.

Catalyst surfaces work as coordinated networks, not isolated hotspots, a new study reveals, opening doors to designing more efficient catalysts for clean energy.

A two-chip photonic neuromorphic system performs real time spiking reinforcement learning using only light, achieving ...

An electronic nose modeled on insect antennae simultaneously identifies gas mixtures and pinpoints their three-dimensional origin by decoding the natural dynamics of odor plumes.

A MXene-based double-network hydrogel delivers broadband electromagnetic interference shielding and infrared stealth at just 0.12 wt% filler content.

What happens when a solar superstorm hits Mars? Thanks to the European Space Agency's Mars orbiters, we now know: glitching spacecraft and a supercharged upper atmosphere.

Electrons can be 'kicked across' solar materials at almost the fastest speed nature allows, scientists have discovered - challenging long-held theories about how solar energy systems work.

PanMETAI combines AI and NMR metabolomics to detect early-stage pancreatic cancer from a blood sample, achieving 93 percent ...

Researchers developed a catalyst support that lets cheap nickel and cobalt rival expensive ruthenium for producing hydrogen from ammonia at lower temperatures.

Researchers developed a protein-based sensor that lets MRI machines visualize molecular activity inside cells, potentially transforming study of cancer and disease.

Lipid nanoparticles deliver mRNA to insulin-producing beta cells, prompting them to express a protective protein that shields them from autoimmune attack.