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Archives: Publications
Selective Recovery of Platinum Group Metals and Rare Earth Metals from Complex Matrices using a Green Chemistry-Molecular Recognition Technology Approach
– Highly selective separations and recovery at high levels of individual rare earth elements – Comparison of OPEX and CAPEX costs for MRT™ and solvent extraction in separation and recovery of rare earth elements
Selective Separation and Purification of Platinum Group Metals, Rare Earth Elements, and Cobalt from Primary and Secondary Sources using a Green Chemistry SuperLig® Molecular Recognition Technology (MRT) Approach
Highly selective separations and recovery at high purity of individual rare earth elements
Recent Advances in the Application of Molecular Recognition Technology (MRT) in the Copper Industry
– Pilot testing at the Caraiba Metals electrolytic copper refinery in Brazil to demonstrate that the MRT™ system removes both bismuth and antimony from tankhouse electrolyte – Pilot testing at the Chuquicamata Division of Codelco, Chile for removal of chloride from copper refinery electrolyte – Recovery of copper and other metals from acid mine drainage...
Contributions of Professor Reed M. Izatt to Molecular Recognition Technology: From Laboratory to Commercial Application
Industrial separations: Pd, Rh, Hg from sulfuric acid, Cu purification (Bi and Sb), high copper gold ore
Extraction, Recovery, and Recycling of Metals from Effluents, Electrolytes, and Product Streams Using Molecular Recognition Technology
– Highly selective separation and recovery of gold from pregnant cyanide leach solution containing significant copper values – Economics of MRT™ systems for gold and copper recovery feature simple process flowsheets, high target metal selectivity, and low consumption of operating chemicals – Extraction and recovery of mercury from concentrated sulfuric acid at the Britannia Zinc...