– Cobalt and nickel individual separation and recovery at high levels from a leach stream derived from laterite ore – Thousands of cycles demonstrated for SuperLig® 167 when used in nickel separations
Archives: Publications
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 individual separation and recovery at high purity of cobalt and nickel from laterite ores – Highly selective separation and recovery at high purity of cobalt from zinc waste streams
MRT™: The Key to Green Recycling of Lithium-ion Batteries
See paper title
Recent Advances in the Application of Molecular Recognition Technology (MRT) in the Copper Industry
Recovery and refining of platinum group metals from copper anode slimes
Contributions of Professor Reed M. Izatt to Molecular Recognition Technology: From Laboratory to Commercial Application
– Highly selective industrial separations of Pd and Rh – Au from 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 Precious Metals from Plating Solutions Using Molecular Recognition Technology
– Recovery of potassium gold cyanide (PGC) from gold plating rinsewater – Recovery of palladium from palladium chloride dipping bath solution – Impurity removal capabilities from precious metal finishing solutions: – Immersion Gold: Ni, Cu – Strong Acid Gold Electrolytes: (Au removal and purification) – Weak Gold Electrolytes: Pb, Fe, Cu, Sn – Neutral Gold...