Controlling this state paves the way for the creation of more intelligent, reconfigurable and energy-efficient devices that ...

A new review article delves into the world of multi-photon 3D nanoprinting, a technology that has been making waves in the ...

Scientists discover how defects in the surface of two-dimensional sheets alter ripple effects, even freezing the sheet's ...

Germanene nanoribbons keep topological edge states above 2 nm but form new quantum end states below this width, revealing a ...

A specialized nanoscale Covalent Organic Framework brightens cancer cells under extreme cold, boosting cryosurgery accuracy ...

Scientists develop fungal-based materials that grow, self-repair, and replace synthetic fibers with a sustainable alternative ...

For decades, scientists have relied on electrodes and dyes to track the electrical activity of living cells. Now, engineers ...

Researchers have developed a reproducible and scalable method for producing graphene oxide nanosheets from commercial carbon ...

A self-powered biosensor detects and destroys E. coli using enzyme-driven energy, aptamer-based recognition, and silver ion release for real-time safety.

Scientists sketched a road map toward a longtime goal: development of autonomous, or self-driving, next-generation research ...

Researchers at the University of Chicago and Argonne National Laboratory have been working on this problem for years; now, together with partners from Harvard University, they have perfected a new ...

A new quantum-dot display technology uses ions to boost brightness and efficiency while extending screen lifespan and ...