LPS enables rapid discovery of expertise and serves as a conduit between researchers, subject matter experts, investors and innovators by providing multi-faceted search capability across numerous technology areas and across the National Laboratories. Learn more about LPS.

This portal is meant to enable connection to U.S. Department of Energy (DOE) patents and experts, not to provide information about coronavirus or COVID-19. DO NOT contact the individuals and researchers included in LPS for general questions about COVID-19. For information about the virus, please visit the Centers for Disease Control (CDC) website.

Selective Chemical Separation of Rare-Earth Oxalates

Stage: Prototype
Iowa State University and Ames Laboratory Critical Materials Institute researchers have developed a cost effective step that easily separates rare earth oxalates into a light rare earth stream and a heavy rare earth stream.


For many rare earth ores, the percentage of the valuable heavy rare earths (in particular, terbium, europium, dysprosium, yttrium and gadolinium) in the ore is very low, making separation and recovery of these elements from the other rare earths not cost-effective.  Iowa State University and Ames Laboratory researchers have developed a process that can be added on to conventional ore processing that readily separates rare earth oxalates into two streams, one containing the light rare earths (La – Sm) and the other containing heavy rare earths (Gd – Y).  This one step process requires no special equipment and minimal capital investment.  The process is water-based, and uses a “green” extractant to remove the heavy REEs from the light REEs.


http://isurftech.technologypublisher.com/technology/20984 

Applications and Industries

Rare earth ore processing

Benefits

Chemical separation of rare earth elements into high-value and low-value streams
Simple and fast – one-step process does not require special process equipment
Environmentally friendly – uses green extract in place of hazardous organophosphorous compounds
Cost effective