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![Illustration of spin and orbital structures Illustration of spin and orbital structures of the Sr2FeReO6 double perovskite composed of localized 3d orbitals (red) and spin-orbit coupled 5d orbitals (blue).](/sites/default/files/styles/list_page_thumbnail/public/Image%20for%20Lee%20highlight%2012-03-18.jpg?itok=jJpOWi3U)
Researchers discovered that a hidden ferromagnetic insulating (FMI) state emerged in Sr2Fe1+xRe1-xO6 films when the material’s local ionic order was disturbed by a small modification in cation ratio.1 This work provides a promising new route to developing
![Next-generation fiber-reinforced composites may monitor their own structural health, detect damage, and issue early warnings. When enough electrically conductive fiber is embedded in a polymer matrix, the bulk composite becomes electrically conductive. Se](/sites/default/files/styles/list_page_thumbnail/public/Composite%20Graphic.jpg?h=972c50f2&itok=iddiFRKf)
Researchers utilized a roll-to-roll process to coat electrically conductive carbon fibers with semiconducting silicon carbide nanoparticles—demonstrating a scalable method to make reinforcing fibers for composite applications requiring strong
![Peculiar outer-sphere water coordination of trivalent lanthanide complexes is shown in experiment and computation to correlate with the lanthanide selectivity of a diglycolamide ligand in the biphasic separation system](/sites/default/files/styles/list_page_thumbnail/public/2019-04/Outer-Sphere%20Water%20Clusters%20thmnl_0.jpg?h=ed6b2544&itok=p7m76Pgo)
Peculiar outer-sphere water coordination of trivalent lanthanide complexes is shown in experiment and computation to correlate with the lanthanide selectivity of a diglycolamide ligand in the biphasic separation system