Separation of Europium from Samarium and Gadolinium by Combination of Photochemical Reduction and Solvent Extraction

Abstract

The separation of Eu from Sm and Gd by a combination of photochemical reduction and solvent extraction was investigated. A low-pressure mercury lamp having emission peaks of 184.9 nm and 253.7 nm was used as a light source. The trivalent Eu was reduced to the divalent state by photoreduction in (NH₄)₂SO₄ aqueous solution containing SmCl₃, EuCl₃, GdCl₃ and scavenger (2-propanol or isopropyl formate) to make EuSO₄ precipitate selectively. The purity of Eu in the precipitate was more than 97%. The photoreductive stripping of Eu was studied by using a two-compartment cell separated by a sintered glass filter. In a two-phase system consisting of bis(2-ethylhexyl)phosphoric acid (D2EHPA)/xylene containing the three elements and (NH₄)₂SO₄ aqueous solution, Eu³⁺ was reduced in the aqueous phase using isopropyl formate as scavenger, and EUSO₄ precipitated selectively. The recovery of Eu as EuSO₄ from the organic solution containing equal amounts of the three elements was dependent on the aqueous-phase pH and reached 68% at pH 0.4. The purity of Eu in the precipitate was more than 95%.