Abstract
First separation of Ln(III) using an inorganic nanofiltration membrane has been achieved. Ln(III) ions are strongly repelled by the ZrO 2/TiO 2 membrane. When diethylenetriaminepentaacetic acid (DTPA) is used as water soluble complexing agent, the complexes formed with Ln(III), surprisingly passes through the membrane. The stability constant of DTPA with Eu 3+ is higher than the one with La 3+. Thus [EuDTPA] 2− complex is formed at lower pH than [LaDTPA] 2− and so these two elements can be separated. With an equimolar mixture of Eu 3+ and La 3+, a La 3+/Eu 3+ separation factor of 2.5 is obtained at pH 1.9. Other polyaminocarboxylic acids have been used such as EDTA and HEDTA and similar phenomenon occur. The best La 3+/Eu 3+ separation factor has been obtained with HEDTA. In that case, the La 3+/Eu 3+ separation factor is 7.5 at pH 2.3. All these ligands have been also evaluated with a TiO 2 nanofiltration membrane and results are comparable.
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