Researchers overcome key challenges in the mass production of enzymatic biofuel cells, paving the way for self-powered ...

Researchers revealed the atomic-level mechanism bacteria like A. baumannii and P. aeruginosa use to build ...

A dual-phase silicon carbide ceramic reinforced with boron nitride nanosheets achieves 94.5% greater strength while absorbing radar waves for stealth applications.

A new nanostructure gas sensor uses safe blue LED light to distinguish hydrogen, ammonia, and ethanol with 56x better ...

Most modern cars are equipped with a Tire Pressure Monitoring System (TPMS), mandatory since the late 2000s in many countries ...

Researchers have created protein fibers inspired by various animal muscle proteins. These materials are grown in bioreactors and can be stronger than many synthetic fibers.

Charged helium nanodroplets stored in an ion trap for a full minute, 10,000x longer than before, open breakthrough possibilities in nanocalorimetry and nanoscale research.

Scientists show enhanced enzyme diffusion after catalysis actively drives reactions away from equilibrium, offering a new ...

A flexible foam sensor built from silver selenide detects temperature and pressure simultaneously, enabling a robotic gripper ...

Atom-level understanding of how the surface electronic properties of a magnetic semimetal can be tuned could guide its use in ...

In a series of experiments and simulations, the researchers showed that by adjusting light intensity, timing, and spatial patterns, they can trigger crystals to form or melt on demand, decide where ...

A new study has revealed how tiny imperfections and vibrations inside a promising quantum material could be used to control an unusual quantum effect, opening new possibilities for smaller, faster and ...