California-based watch brand PASCAL has released its latest collection of timepieces incorporating lab-grown diamonds and ...

Rossi’s current research focuses on two other promising 2D materials – tungsten disulfide and hexagonal boron nitride. He ...

Strontium titanate’s remarkable ability to perform at extremely low temperatures makes it a key material for next-generation cryogenic devices used in quantum computing and space exploration. Supercon ...

Scientists have upended long-held assumptions about thermal conductivity, revealing that boron arsenide crystals can conduct heat even better than diamond. Researchers at the University of Houston ...

This downtown parking lot on Third Avenue at Virginia Street is one of seven Martin Selig Real Estate properties that were ...

In an era where digital screens dominate our relationship with time, the wristwatch has shifted from pure functionality to a form of visual communication. PASCAL‘s watch collection explores this ...

The path toward realizing practical quantum technologies begins with understanding the fundamental physics that govern ...

In the race to develop the next generation of high-performance semiconductor devices, thermal management has emerged as a ...

Indians are increasingly choosing moissanite for its diamond-like sparkle and affordability. This guide helps distinguish ...

An international team of scientists from three continents led by Dr. Petr Cígler of IOCB Prague has developed a method for ...

A University of Tokyo team has turned organic molecules into nanodiamonds using electron beams, overturning decades of assumptions about beam damage. Their discovery could transform materials science ...

Due to the exceptional mechanical and chemical properties, such as impressive strength, unparalleled hardness, and remarkable chemical stability, synthetic diamond has found extensive applications in ...