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Technologies for Rare Earths Enrichment of a Novel Low-Cost Raw Material

Award Information
Agency: Department of Defense
Branch: Office of the Secretary of Defense
Contract: N00014-15-C-0039
Agency Tracking Number: O2-1455
Amount: $746,140.00
Phase: Phase II
Program: STTR
Solicitation Topic Code: OSD12-T01
Solicitation Number: 2012.2
Solicitation Year: 2012
Award Year: 2015
Award Start Date (Proposal Award Date): 2015-01-13
Award End Date (Contract End Date): 2016-07-13
Small Business Information
20 New England Business Center
Andover, MA 01810
United States
DUNS: 000000000
HUBZone Owned: No
Woman Owned: No
Socially and Economically Disadvantaged: No
Principal Investigator
 Prakash Joshi
 (978) 738-8202
Business Contact
 B. David Green
Phone: (978) 689-0003
Research Institution
 University of Connecticut
 Antje Harnisch
191 Auditorium Road
Storrs, CT 06269-1111
United States

 (860) 486-3994
 Nonprofit College or University

A critical step in the extraction of elements from ore, especially rare earth elements that are found in complex minerals, is separation. Froth flotation is a highly versatile method for physically separating particles based on differences in the ability of air bubbles to selectively adhere to specific mineral surfaces in a mineral/water slurry. The particles with attached air bubbles are then carried to the surface and removed, while the particles that remain are completely wetted stay in the liquid phase. Froth flotation is an attractive approach, but its effectiveness is limited for the rare earth minerals as they occur as phosphates, carbonates, fluorides, silicates and oxides with gangue minerals, which often share physical properties. By providing another tool for separation, increased understanding of localized surface chemistries in complex rare earth minerals could enable affordable processes that improve grades, recoveries, capital costs and operating costs for separation of rare earth elements from their ores. The techniques used to characterize surface chemistry in flotation relate to methods to make selective minerals hydrophobic by adjusting the surface charge so that ionic collectors may be adsorbed. In the case of non-sulfide minerals this is complicated by the fact that the waste materials are also non-sulfide, so very small differences in surface chemistry properties are observed. Finding chemical methods to selectively adsorb collectors onto the desired minerals requires additional fundamental understanding of the surface ions (potential determining ions) and charges (electrochemical potentials) encountered. The work, coupled with the development of a fundamental understanding can lead to greatly improved processes for concentration by froth flotation.

* Information listed above is at the time of submission. *

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