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Media Contacts
![Researchers observe T-shaped cluster drives lanthanide separation system during liquid-liquid extraction. Credit: Alex Ivanov/ORNL, U.S. Dept. of Energy](/sites/default/files/styles/list_page_thumbnail/public/2023-02/image_1.png?h=b69e0e0e&itok=1tyDrWMw)
Researchers at ORNL zoomed in on molecules designed to recover critical materials via liquid-liquid extraction — a method used by industry to separate chemically similar elements.
![Anne Campbell](/sites/default/files/styles/list_page_thumbnail/public/2023-01/2022-P03479.jpg?h=8f9cfe54&itok=gtc6VRJ9)
Anne Campbell, an R&D associate in ORNL’s Materials Science and Technology Division since 2016, has been selected as an associate editor of the Journal of Nuclear Materials.
![Eva Zarkadoula](/sites/default/files/styles/list_page_thumbnail/public/2023-01/2022-P11466.jpg?h=98f45ff8&itok=aPJc3-on)
Eva Zarkadoula, an R&D staff member at ORNL’s Center for Nanophase Materials Sciences, has been appointed to the early career editorial board of Nuclear Materials and Energy.
![Researchers captured atomic-level insights on the rare-earth mineral monazite to inform future design of flotation collector molecules, illustrated above, that can aid in the recovery of critical materials. Credit: Chad Malone/ORNL, U.S. Dept. of Energy](/sites/default/files/styles/list_page_thumbnail/public/2023-01/float.jpg?h=60f9f39d&itok=i2CRqyBK)
Critical Materials Institute researchers at Oak Ridge National Laboratory and Arizona State University studied the mineral monazite, an important source of rare-earth elements, to enhance methods of recovering critical materials for energy, defense and manufacturing applications.
![Merlin Theodore](/sites/default/files/styles/list_page_thumbnail/public/2023-01/theodore.jpg?h=d1cb525d&itok=9ch50wSj)
Merlin Theodore is one of eight new board members announced by President Biden; she will join the 25-member board for a six-year term.
![A team of ORNL researchers used neutron diffraction experiments to study the 3D-printed ACMZ alloy and observed a phenomenon called “load shuffling” that could inform the design of stronger, better-performing lightweight materials for vehicles. Credit: ORNL, U.S. Dept. of Energy](/sites/default/files/styles/list_page_thumbnail/public/2023-01/loadShuffle01_0_0.png?h=9651c94c&itok=FIdoRoNe)
ORNL researchers have identified a mechanism in a 3D-printed alloy – termed “load shuffling” — that could enable the design of better-performing lightweight materials for vehicles.