Researchers designed a twisted 2D conductive MOF that preserves its electronic properties when stacked, advancing practical ...

A new buried growth process creates diamond NV center arrays with controlled position and orientation, supporting scalable ...

By using a thin layer of diamond to manage excessive heat, researchers can boost the speed and energy-efficiency of ...

When the universe was just 850 million years old, this voracious black hole was already surprisingly mature, a new study ...

Ultrafast optical measurements expose buried crystal flaws in atom-thin insulating films, offering a non-destructive route to ...

Researchers made nanoporous SiO2 coatings for ultraviolet laser optics, achieving uniform large area films and higher damage ...

Ferroaxial atomic rotations enable chirality-like Raman optical activity in an achiral, nonmagnetic crystal, expanding tools ...

Van der Waals forces can tune ferroelectric thin films, improving control over material properties for smaller, more ...

Machine learning models energy release during heavy-element formation, enabling faster simulations of neutron star mergers ...

Overcoming the light-emission limitations of conventional organic semiconductors through ultra-low-voltage operation.

Chemical impurities help amorphous carbon form graphite-like, ultralow-friction layers under stress, enabling ...

Polyphenol-guided cerium oxide nanozymes stay dispersed while tuning oxygen vacancies, improving antioxidant protection ...