A new electrically controlled MXene membrane tunes ion separation on demand, opening doors to more efficient water treatment, ...

A machine-learning loop searched 14 million battery cathode compositions and found fivefold performance gains across four metrics using fewer than 200 experiments.

Researchers reveal new mechanisms governing the storage and the movement of sodium ions in hard carbon nanopore anodes.

Scientists developed a single-atom iridium catalyst that drives both water-splitting reactions on one electrode, using 98.5% less precious metal for cheaper green hydrogen.

Chemists created a gold-catalyzed method to make non-natural amino acids ready for peptide synthesis, expanding drug design options beyond 22 natural types.

A nanomechanical sensor once limited to the lab can now detect ultrafine airborne particles, closing a key gap in pollution monitoring and climate science.

Oral polysaccharide-engineered nanozyme treats colitis-linked mental disorders by targeting oxidative stress and gut dysbiosis via the microbiome-gut-brain axis.

Three cheap hygroscopic salt solutions on carbon nanotube sensors distinguish nine toxic gases, including warfare agents, without engineered receptor molecules.

The nanodevice produces an autonomous, stable current from evaporating saltwater by using heat and light to control the movement of ions and electrons.

A new AI-accelerated platform creates digital replicas of chemical experiments, enabling real-time optimization and rapid ...

Scientists used entangled X-ray photon pairs to produce ghost images of tiny samples, a proof of concept that could enable longer, lower-dose studies of delicate biological materials.

Researchers have demonstrated that lipid nanoparticles can package and deliver an entire therapeutic gene along with ...