Lab-grown Diamonds

This shiny, sparkly diamond was made inside a laboratory – but it has the same chemical makeup as its counterpart found deep inside the earth.

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All the composition is exactly the same. It is a real diamond. What we’ve done is we’ve just taken what’s happened in nature and just put it in a lab,” said  Kelly Good, Director of Marketing of Pure Grown Diamonds.

Essentially, all diamonds are carbon. And inside a laboratory, scientists are using a method called microwave plasma chemical vapour deposition to grow the stones from a diamond seed. They do it by creating a plasma ball made of hydrogen inside a growth chamber. Methane, which is a carbon source, is added. The carbon mix rains down on the diamond seeds, layer by layer, creating a large, rough diamond that is cut and polished. The process takes about 10 to 12 weeks. Marketers tout the lab-grown diamonds as an eco-friendly, conflict-free alternative to mined diamonds. “Our consumer is millennials, anybody who is getting engaged are really buying the lab-grown diamonds. They also like the fact of the environmental aspect of it. That it’s grown in a greenhouse. There is less soil being moved. We have a less carbon footprint,” explains Kelly Good.

While similar in appearance, there are differences. David Weinstein, Executive Director of the International  Gemological Institute (New York), comments: “I have a crystal, a diamond and I’m looking at it and I see a peridot crystal, a green peridot crystal, I know right away, this wasn’t created in a machine. So the inclusions can really be very telling as to what the origins of the material is. And that’s what our gemologists look for.”
While lab-grown gems have been around for decades, but it’s only recently that the science and technology have made it possible to grow large, gem quality stones. And according to a report by Morgan Stanley, the lab-grown diamond market could grow by about 15 percent by the year 2020.

Source: http://www.reuters.com/

Electric Car: How To Produce Cheap Hydrogen

Rutgers University researchers have developed a technology that could overcome a major cost barrier to make clean-burning hydrogen fuel – a fuel that could replace expensive and environmentally harmful fossil fuels.

The new technology is a novel catalyst that performs almost as well as cost-prohibitive platinum for so-called electrolysis reactions, which use electric currents to split water molecules into hydrogen and oxygen. The Rutgers technology is also far more efficient than less-expensive catalysts investigated to-date.
Hydrogen has long been expected to play a vital role in our future energy landscapes by mitigating, if not completely eliminating, our reliance on fossil fuels,” said Tewodros (Teddy) Asefa, associate professor of chemistry and chemical biology in the School of Arts and Sciences. “We have developed a sustainable chemical catalyst that, we hope with the right industry partner, can bring this vision to life”. He and his colleagues based their new catalyst on carbon nanotubesone-atom-thick sheets of carbon rolled into tubes 10,000 times thinner than a human hair.
carbon nanotubes to produce hydrogen

A new technology based on carbon nanotubes promises commercially viable hydrogen production from water

Finding ways to make electrolysis reactions commercially viable is important because processes that make hydrogen today start with methane – itself a fossil fuel. The need to consume fossil fuel therefore negates current claims that hydrogen is a “green” fuel.
Source: http://news.rutgers.edu