Molecular Octopus: Octa Functionalized Calix [4] Resorcinarene-Hydroxamic Acid [C4RAHA] for Selective Extraction, Sepration and Preconcentration Of U (VI)

Abstract

A solvent extraction separation of uranium, in the presence of thorium, cerium and lanthanides with a new calix[4]resorcinarene bearing eight hydroxamic acid groups (C4RAHA) is described. Quantitative extraction of uranium is possible in ethyl acetate solution of C4RAHA at pH 8.0. The λmax and molar absorptivity (var epsilon) for uranium is 356 nm and 8352 L mol−1 cm−1. The Binding ratio of uranium with C4RAHA as evaluated by Job’s method is 4:1. The system obeys Beer’s law over the range 0.075–6.0 μg ml−1 of uranium with Sandell sensitivity 0.0284 μg cm−2. A preconcentration factor of 142 was achieved by directly aspirating the extract for GF-AAS measurements. The two-phase stability constant evaluated at 25 °C for uranium is 15.91. The complexation is characterized by favorable enthalpy and entropy changes. A liquid membrane transport study of uranium was carried out from source to the receiving phase under controlled conditions and a mechanism of transport is proposed. Uranium has been determined in standard and environmental samples.