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This project is designed to integrate recovery of critical elements into total utilization of the huge phosphogypsum (PG) waste from phosphate mining with five major objectives: reduce radionuclide

This project will: develop improved approaches to sustainably extract PGMs (platinum (Pt) and palladium (Pd)), selenium (Se), tellurium (Te), and precious metals (gold (Au) and silver (Ag)) from Se

The project will reduce the use of neodymium (Nd), praseodymium (Pr), and dysprosium (Dy) in permanent magnets using a nanostructure engineering approach.

The project aims for discovery and further development of a new permanent magnet materials that will compete with the current technologies, i.e., neodymium iron boron (NdFeB) magnets and/or samariu

This project will use systems level modeling and prototyping as means for developing alternatives or substitutes for rare earth elements (REE).

The primary objective of the proposed research is to develop a domestic one-step environmentally-friendly production methodology, which can directly convert neodymium oxide (Nd2O3) into neodymium i

The main goals of this project are develop kg-level production at ambient conditions of anhydrous rare earth fluoride from the recycled rare earth-containing waste streams without any hydrofluoric

This project will develop a novel electrochemical reactor for ‘continuous’ production of neodymium metal from domestic ores.

This project will leverage expertise in materials synthesis, characterization and modeling to realize nanoparticle permanent magnets (NPPM) primarily composed of earth abundant elements (iron and n

The project bridges the gap between discovery and synthesis of bulk permanent magnets through microstructure design.