We may be closer to unravelling the mystery of how the dry, arid Mars used to be covered in water from new research that ...

A research team has developed a single-use test strip which could ultimately change how diseases like cancer are diagnosed.

Adding oxygen to ultrathin graphene enables efficient carbon dioxide removal from methane while maintaining high permeability.

Thermoelectric generators built entirely from food-grade hydrogels and vanillin harvest heat from hot meals to power edible displays that change color when food reaches safe eating temperature.

A new genetic control system lets lab-grown cells produce gas vesicles step by step, reducing stress on the cells and improving yields for medical uses.

Anomalous low-field oscillatory magnetoresistance in an antiferromagnetic kagome semimetal heterostructure was linked to ...

Carbon nanotubes can open and close in response to acidity, guiding water and ions one by one and mimicking how natural cell ...

Heat limits sub-10 nm chips, but current tools miss nanoscale effects or run too slowly. New modeling bridges atom-level ...

A new gas sensor using ruthenium dioxide nanosheets achieves ultra-sensitive ethanol detection down to 5 ppb, enabling ...

A semiconductor device generates unforgeable watermarks from chaotic electron behavior, embedding invisible markers in images ...

Researchers adapted ARPES to work in magnetic fields using nanoscale alternating magnets that confine fields near a sample, letting photoelectrons travel straight.

By changing the physical structure of gold at the nanoscale, researchers can drastically change how the material interacts with light and, as a result, its electronic and optical properties.