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Acid-Free Dissolution and Separation of Rare-earth Metals

Ames Laboratory

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Technology Marketing Summary

ISU and Ames Laboratory researchers have developed a method to effectively recycle rare earth elements through simple REDOX reactions allowing for aqueous processing. This replaces the need for dangerous and environmentally unfriendly acids.

Description
 
Rare earth elements (REE) have seen a sharp increase in use in a number of technical materials such as high density and high temperature tolerant permanent magnets, lamp phosphors, catalysts, rechargeable batteries and many other technologies related to a transition to a greener economy. With China controlling more than 90% of REE output and increasingly stringent export quotas, the world at large faces a risk of supply disruption. Recycling of spent materials is therefore crucially important. ISU researchers have developed a novel approach to recycling REEs (particularly neodymium and dysprosium) by dissolving REE containing metal scrap in a reducing aqueous solution. After simple processing of the solubilized material, pure REE-oxides can be recovered. Recovery yield of the REE-oxides are typically greater than 95%. The use of aqueous reduction to dissolve the REE replaces the need for environmentally unfriendly acid use.
Benefits
 
• Cost effective and time efficient
• Environmentally friendly
• Expected to scale efficiently
• Applicable to small or large scale operation
 
 
 
Applications and Industries

Recycling rare earth elements

More Information

Patents applied for. 

ISURF Direct Link: http://isurftech.technologypublisher.com/technology/23707

Technology Status
Technology IDDevelopment StageAvailabilityPublishedLast Updated
4443PrototypeAvailable12/07/201712/07/2017

Contact AMES About This Technology

To: Craig Forney<licensing@iastate.edu>