Rare earths outside China: Researchers identify new deposits

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Rare earth elements are the gold of the 21st century: rare and highly prized all over the world. Most known and economically viable sources of rare earths are located in China, where more than 80 percent of them are refined. This has resulted in a near monopoly situation, with China dominating international trade, particularly in heavy rare earths. Geologists and materials scientists at FAU have now discovered a new way of finding new and previously unknown deposits of rare earths, or rare earth metals, worldwide. They have published the findings of their study in the journal Geology.

Rare earth metals are irreplaceable for manufacturing advanced high-tech industrial products due to their luminescent and catalytic properties. They are used to make that are a vital part of modern electronics in televisions, smartphones, notebooks, , and rocket guidance systems as well as in solar and wind power plants, electric motors and in medical engineering.

Contrary to what their name might suggest, sources of rare earth elements or rare earth metals are distributed fairly equally all over the world. However, there are only very few sources that are economically viable. FAU geologists Dr. Sönke Brandt, Prof. Dr. Reiner Klemd, Marc Fassbender and Prof. Dr. Karsten Haase have now discovered an indicator that can identify such deposits.

They inspected rock samples from the Vergenoeg fluorite mine in South Africa and discovered that fayalite crystals in the sediment of granite-like magma can contain large amounts of heavy rare earth elements. The mineral, which is reddish brown to black in color, is mainly mined for use as a gemstone and is also used for sand blasting. Fayalite can be found worldwide in and abyssal rocks.

"Since heavy are becoming increasingly scarce on the world market, the discovery of fayalite as a new potential source for locating new deposits of rare earths is extremely important for the economy," says Prof. Dr. Reiner Klemd from Geozentrum Nordbayern at FAU, who led the study.

More information: S. Brandt et al, Cumulate olivine: A novel host for heavy rare earth element mineralization, Geology (2020). DOI: 10.1130/G48417.1

Journal information: Geology

Citation: Rare earths outside China: Researchers identify new deposits (2021, March 11) retrieved 29 February 2024 from https://phys.org/news/2021-03-rare-earths-china-deposits.html
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