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Archives: Publications
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
Recycling and Sustainable Utilization of Precious and Specialty Metals
– Global benefits derived from effective metal recycling – Urban mining excellent source for silver, gold, palladium, platinum, rhodium, copper, cobalt – Efficient and effective metal recycling can make a major contribution to a circular economy and lead to metal sustainability
Application of Molecular Recognition Technology Green Chemistry Processes in Extractive Metallurgy, Metal Extraction, and Chemical Analysis
– Highly selective metal recovery from acid mine drainage streams and mine wastes: base metals, copper, gold -Benefits and economic advantages of MRT™ compared to other separation processes: ion exchange, chelation ion exchange, solvent extraction, chromatography, biological
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 separation and recovery at high purity of cobalt from zinc waste streams
Precious Metal Separations and Recovery from Primary and Secondary Sources using SuperLig® Molecular Recognition Technology™ (MRT™) Processes
– Recycling of precious metals: Pt, Pd, Rh, Ru, Ir, Au, Ag – Urban mining of precious metals from spent secondary sources