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.

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 ...

Researchers developed a stretchable polymer-based solid electrolyte that could enable safer, flexible solid-state batteries ...

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.

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.

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.

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

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

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.