A research team led by SUTD has created nanoscale glass structures with near-perfect reflectance, overturning long-held ...

The new lab-grown hexagonal diamond, created by compressing graphite at unprecedented pressures before heating it to 1,800 K (1,527 °C or 2,780 °F), has now set a new benchmark.

Say goodbye to smashed phone screens! Scientists create 'ultrahard' GLASS that's even harder than a diamond. The 'carbon glass' was synthesised by experts led from Jilin University, China ...

Diamonds are precious. They’re valued for their beauty but they also have some incredible real-world applications. Thanks to its incredible hardness, diamond is often used … ...

New research indicates that a rare form of diamond may originate in the burbling cores of distant worlds, arriving on Earth thanks to violent cosmic collisions. According to a team of scientists ...

Its crystal structure is hexagonal, which explains why lonsdaleite is also called a "hexagonal diamond." Their discovery came from finding the gem in ureilite meteorites, ...

Lonsdaleite, for example, is a type of diamond that was first discovered in 1967 in the Canyon Diablo meteorite and boasts a hexagonal lattice structure. The lab-grown diamond in question is of ...

This “super diamond” structure, according to scientists, exhibits high thermal stability “up to 1,100C and a very high hardness of 155 Giga Pascals (GPa).” ...

The diamond structures were locked inside the Canyon Diablo meteorite, which slammed into Earth 50,000 years ago and was first discovered in Arizona in 1891. The diamonds in this meteorite aren't ...

The diamond structures were locked inside the Canyon Diablo meteorite, which slammed into Earth 50,000 years ago and was first discovered in Arizona in 1891. The diamonds in this meteorite aren't ...