Abstract
Precious metals including copper, gold, and palladium can be dissolved in supercritical CO2 by oxidation with HNO3 and subsequent chelation with hexafluoroacetylacetone to form CO2-soluble metal β-diketonate complexes. The oxidizing agent HNO3 is carried into the supercritical fluid phase by the CO2-soluble Lewis base tri-n-butyl phosphate (TBP) as a complex of the general form TBP(HNO3)x(H2O)y. For the dissolution of Pd metal, a Lewis acid−base complex of the form TBP(HNO3)1.0(H2O)0.4 is required. Au and Cu can be oxidized with a lesser amount of HNO3 in the complex. This supercritical fluid dissolution technique provides a “dry” method for recovering precious metals from abandoned electronics and spent catalysts with minimum waste generation.
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