Synthesis and solvent extraction studies of novel calixarene-based uranophiles bearing hydroxamic groups

Abstract

Calix[n]arene-based uranophiles bearing hydroxamic groups on the lower rim (2_n; n= 4 and 6) have been synthesized and the extractability (Ex%) and the selectivity towards uranyl ion (UO₂ ²⁺) estimated in a two-phase (water–chloroform) solvent-extraction system. Ex% for 2₄ and 2₆ increases from pH 2 and saturation is reached at around pH 5 where 100% extractability occurs. Since the pK_a values for hydroxamic acids are 8–9, the apparent pK_a shift caused by the UO₂ ²⁺-complexation amounts to 6–7 pK units. Extraction of UO₂ ²⁺ from aqueous carbonate solution established that 2₆ in the organic phase can compete efficiently with CO₃ ^2– ions in the aqueous phase for UO₂ ²⁺ whereas in 2₄ and a calix[6]arene-based uranophile bearing six carboxy groups (1₆) UO₂ ²⁺ is re-extracted to the aqueous phase. The difference indicates that 2₆, which has the hexacoordination geometry preorganized for the binding of UO₂ ²⁺, is superior to 2₄ as a uranophile. We also found that the selectivity of 2₆ is superior to 1₆: the Ex% values for 2₆ is scarcely affected by the addition of competing metal cations (except Fe³⁺). These results show that 2₆ serves as an excellent UO₂ ²⁺-selective extraction reagent.