source:sciencedailyThe study, published this week in the journal RSC Advances, also provides new understandings of the occurrence and behaviour of cerianite in natural deposits. The research also expands our knowledge about the exploration, exploitation, and extraction of rare earth minerals (REEs). In addition, the findings have implications for biomedical research, the production of carbon neutral technologies and the material sciences.Adrienn Maria Szucs, PhD researcher in Geochemistry, Trinity, and lead author of this study explained:'We killed two birds with one stone because we found...
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source:phys.orgRare-earth elements, also known as lanthanides, are, contrary to what the name suggests, not rare. They are, however, challenging to purify from the environment. Only in the past few years, it became evident that life has found solutions to harness these elements for itself. In a recent paper, the Vorholt lab describes the discovery of lanpepsy, a protein which specifically binds lanthanides and discriminates them from other elements.Lanthanides are essential metals for today's technologies, including electronic devices such as smart phones. Their mining is associated with p...
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source:natureAbstractWith the technological advancement in recent years and the widespread use of magnetism in every sector of the current technology, a search for a low-cost magnetic material has been more important than ever. The discovery of magnetism in alternate materials such as metal chalcogenides with abundant atomic constituents would be a milestone in such a scenario. However, considering the multitude of possible chalcogenide configurations, predictive computational modeling or experimental synthesis is an open challenge. Here, we recourse to a stacked generalization machine learnin...
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source:PhyResearchers at Harvard University, the Lawrence Berkeley National Laboratory, Arizona State University, and other institutes in the United States have recently observed an antiferromagnetic metal phase in electron-doped NdNiO3 a material known to be a non-collinear antiferromagnet (i.e., exhibiting an onset of antiferromagnetic ordering that is concomitant with a transition into an insulating state).'Previous works on the rare-earth nickelates (RNiO3) have found them to host a rather exotic phase of magnetism known as a 'noncollinear antiferromagnet,'' Qi Song, Spence...
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