A new technical titled “The effects of sub-monolayer laser etching on the chemical and electrical properties of the (100) diamond surface” was published by researchers at Macquarie University and MIT.

Scientists have turned the smallest possible bits of diamond and other super-hard specks into 'molecular anvils' that squeeze and twist molecules until chemical bonds break and atoms exchange ...

A total of 3kg of Arbutus kimberlite was processed at CF Minerals of Kelowna and interpreted by Dr. Chuck Fipke He reports that Arbutus Kimberlite should have excellent diamond potential with some of ...

Diamond coatings have garnered substantial attention due to their exceptional hardness, thermal conductivity and tribological performance. Chemical vapour deposition (CVD) techniques, including hot ...

Cornell University scientists have turned to diamonds for clues to how chemical molecules and metals bond. By using two flawless diamonds working in a chamber one-tenth the diameter of a human hair, ...

"Diamond plates create nanostructures through pressure, not chemistry." ScienceDaily. www.sciencedaily.com / releases / 2014 / 06 / 140627133105.htm (accessed September 29, 2025).

A simple light-driven process might open the door to reactions that are not easily mediated by other means, according to chemists at the University of Wisconsin, Madison. By way of example, they show ...

Diamonds may be a girl`s best friend, but they are also pretty popular with Cornell University scientists whose interests run more to squeezing molecules and metals than blonds. By using two flawless ...