– Highly selective separation and recovery at high purity levels at laboratory scale of molybdenum from a matrix containing tungsten and a large excess of copper – Highly selective separation and recovery at high purity level of rhenium from a steam containing rhenium, arsenic and selenium
Category: Technology and Base Metals
Recovery of Metals from an Acid Leachate of Spent Hydrodesulphurization Catalyst using Molecular Recognition Technology
High yield and high purity recovery of molybdenum, nickel, and aluminum from spent catalysts
Green Chemistry Principles Applied to the Selective Separation and Purification of Specialty Metals Using Molecular Recognition Technology
– Highly selective separation of specialty and toxic metals and recovery at high purities: bismuth, indium, germanium, rhenium, molybdenum, cadmium – Thousands of cycles demonstrated for SuperLig® 167 when used in nickel separations
Recovery of Value-Added Metals from Copper Refining Streams using Molecular Recognition Technology
Highly selective separation and recovery of rhenium and palladium