Scientists have created a new class of chemical elements based on the mineral steatites.
The element is named in honour of the Canadian mineral, which is also a key ingredient in many stellite-based cosmetics, and can also be found in many natural-foods.
The discovery, reported in the journal Nature Materials, was led by researchers at the University of Calgary and the University, of Alberta.
It is also one of the first results from the Large Hadron Collider, which discovered the Higgs boson.
“It’s exciting, we’re actually talking about something we haven’t really been able to do before, which was synthesize this new class,” said Professor Paul McKechnie, who is an associate professor in the department of chemistry at the university.
The new element, called steatitic iron, is composed of a new, stable, but non-radioactive form of the element steaton.
It has been stable for a long time, and we’re only at the beginning of this, said McKechenie.
When the new element is synthesized, the scientists plan to work on it further to make it more stable and less dangerous to use.
The new element has a theoretical electrical charge of zero, which means that it has no intrinsic quantum properties, and could therefore be used to make very complex and complex-looking materials, McKechens said.
This type of element is very important because it has properties that are really unique, and the more we learn about these properties, the more it can be used in chemistry and other disciplines, he said.
“There are many other elements that are used in the cosmetics industry.
They’re not always the most stable or the best-performing.”
The researchers are currently working to understand the properties of steatitites that were synthesized using the elements in their new class, which includes an element of the periodic table called sodic iron.
Researchers hope to further develop the elements and improve their properties through experimentation.
Steatitite chemistry is an interesting area of research, and one that needs to be done with the best methods, said lead author Michael R. Steckel, a professor of chemistry and biochemistry at the U of A. He hopes that with further research and improved methods, the elements will be more widely used in cosmetics.
“The more we can do with the steatituide element, the better,” he said in an interview with CBC News.
“This could become a new way of making products.”
This is the first known instance of the steteitite chemical element being synthesized from an element previously known only from nature, and it’s a major breakthrough in steatithic chemistry, said Steckel.
He added that steteite chemistry has the potential to be used for a wide variety of applications.
“We can now start using it in cosmetics, we can start using this to make things like stellites for use in plastics and in the production of plastics,” he told CBC News, adding that he is also working on using steteites in other applications, including in medical imaging.
For example, if steteitic iron is used in a plastic to make a transparent plastic, the material could be transparent because it doesn’t have a chemical bond with the element.
“Steatite compounds are very easy to make, so you can make them in a very low cost way,” Steckle added.
McKechnies team is working on several new steteiitic elements, including the element of carbon, which they are also calling the carbon steteiton. “
These are all things that could be used and used to improve our understanding of how stellitic elements interact with each other and with other elements.”
McKechnies team is working on several new steteiitic elements, including the element of carbon, which they are also calling the carbon steteiton.
It was first discovered by the team at the Large Synchrotron Radiation Facility in CERN in 2009, but was first synthesized by another team.
“It’s really exciting that we’ve been able now to build this new element and have a much better understanding of it,” McKech said.