What if you could get diamonds from the sky? Green-tech company - skymining - says they're doing just that. By using excess carbon dioxide to make a fully certified diamond, according to inventor Dale ...

Scientists have designed a new type of carbon that is harder and brighter than naturally formed diamonds. For those who want to wear a one-of-a-kind sparkler on their fingers, the new material, called ...

Diamonds haven’t always been a girl’s best friend. Before the 1930’s, they were no more synonymous with weddings than opals, rubies and sapphires which had been routinely used in engagement rings for ...

For those looking for cheap diamonds, they might want to cozy up to researchers at North Carolina State University. Jay Narayan and his colleagues have discovered a new form of solid carbon, called ...

Scientists from North Carolina State University have discovered Q-carbon, a new phase of solid carbon, which they have used to make diamond-related structures at regular temperatures and air pressures ...

For eight years, Scott Shaffer has been teaching the kids in his physics classes at Andover High School that it's possible to make diamonds from people's hair, ashes or, if you can amass enough of ...

Diamonds from deep underground now reveal that the activities of life can have effects far beneath Earth's surface, researchers find. All life on Earth is based on carbon. This element moves through ...

Scientists have created a substance that blings even brighter than diamonds, but chances are you won’t wear it. You’ll take its byproducts as medicine instead. It’s called Q-carbon, and researchers at ...

Diamonds have a bloody and environmentally troubled history. Now, two companies are buying carbon dioxide and using it to make precious gems in laboratories. The dawn of the Biden administration and ...

Scientists from North Carolina State University have discovered a new form of solid carbon, called Q-carbon, and it has some unusual properties: Q-carbon is ferromagnetic, harder than diamond, and ...

Diamonds from deep underground now reveal that the activities of life can have effects far beneath Earth's surface, researchers find. All life on Earth is based on carbon. This element moves through ...