MSX provides a scalable, efficient way to separate rare earth elements (REEs) from mixed mineral ores.
The MSX technology was pioneered at ORNL by researchers in the Department of Energy’s Critical Materials Innovation Hub (CMI), led by Ames National Laboratory. The inventors, Ramesh Bhave and Syed Islam of ORNL’s Chemical Sciences Division, are named in 26 inventions and five active licenses related to the recovery of REEs.
REEs are a group of 17 lanthanide elements used in technologies such as electronic devices, wind turbines, electric vehicle motors, medical imaging, optics and advanced defense systems. Separated REEs are essential constituents of the neodymium-based magnets — also known as NdFeB — used in permanent magnets that operate in extreme conditions. Heavy REEs including terbium, dysprosium and holmium are required for electric vehicle motors and advanced defense systems but currently must be procured from foreign suppliers.
“Developing a domestic supply of these elements is critical to a range of clean energy and national security technologies,” said Cynthia Jenks, associate laboratory director for physical sciences at ORNL. “ORNL is focused on expanding supply through the development of innovative technologies.”
Compared with other traditional separation methods such as hydrometallurgy and chemical separation, the MSX process uses much less energy, labor and chemical solvents and can be applied to a variety of critical material recovery efforts. The MSX system contains porous hollow fibers with a neutral extractant that function as a chemical “traffic cop” of sorts; creating a selective barrier and letting only REEs pass through. The REE-rich solution collected can then be further processed to yield rare earth oxides with purities exceeding 99.5%.
“The Pea Ridge iron ore mine is the only fully permitted domestic source for heavy REEs critical for high operating temperature, high value neodymium magnets,” said Jim Kennedy, president of Caldera. “The Caldera mine has three distinct rare earth deposits, open at depth, containing 700,000 tons of REEs and significant levels of praseodymium, neodymium, terbium, dysprosium, holmium and other heavy REEs. Caldera seeks to integrate ORNL’s technology into a domestic, vertically integrated value chain, to produce neodymium magnets.”
The MSX technology can separate REEs from other mineral deposits but can also separate light and heavy elements.
