Stability constants of lighter lanthanide(III) chloride complexes by a potentiometric method

“…It is generally assumed (19,26,27) that the rare-earth containing species present in an aqueous rare-earth solution are M , MA , MA , ,+3 ".+2 _ +1 2 and MA^, where M refers to the rare earth and A is a ligand such as chloride or nitrate. There is also the possibility of various forms of rare-earth hydroxides (25,32) however, these are present only in solutions whose pH is above its equivalence point, and will not be considered to be present in this work.…”

An equilibrium study of the chloride and nitrate systems of praseodymium and neodymium with tributyl phosphate and acid

“…It is generally assumed (19,26,27) that the rare-earth containing species present in an aqueous rare-earth solution are M , MA , MA , ,+3 ".+2 _ +1 2 and MA^, where M refers to the rare earth and A is a ligand such as chloride or nitrate. There is also the possibility of various forms of rare-earth hydroxides (25,32) however, these are present only in solutions whose pH is above its equivalence point, and will not be considered to be present in this work.…”

An equilibrium study of the chloride and nitrate systems of praseodymium and neodymium with tributyl phosphate and acid

“…The distribution of lanthanides between the chloride-containing aqueous phase and the extractant-containing organic phase depends on the interaction of the lanthanides with the anions or molecules in the aqueous and organic phase respectively. The stability constants of lanthanides with chloride anions are low, especially when comparing to those reported for transition metals [21,23,32]. Consequently, the aqueous phase contains only the following The reported distribution ratios for lanthanides at trace concentrations are very low.…”

“…This is unfortunate, because separation schemes for lanthanides based on HCl are cheaper than those based on HNO3, and also cause less issues with waste water treatment. The low affinity of lanthanides for chloride anions in aqueous solutions might be one of the reasons for the low extraction percentages [21][22][23]. However, it does not clarify the small separation factors.…”

Mechanism for Solvent Extraction of Lanthanides from Chloride Media by Basic Extractants

“…Las constantes de estabilidad de esos complejos se han determinado normalmente en medios concentrados y se han reportado varios valores en la literatura (Wood (57) , Hass et al (58) , Millero (59) , Smith y Martell (15) , Peppard et al (60) , Akserud y Ermolenko (40) , Goto y Smutz (61) entre otros). Los datos de la literatura sobre la naturaleza y el comportamiento termodinámico de esos complejos inorgánicos, que incluyen al cloruro como ligando, fueron revisados por Hass et al (58) y Millero.…”

“…LnCl 2+ (73) Los valores de logβ 1,Cl se calcularon utilizando la primera constante de hidrólisis obtenida en los medios 2M de NaClO 4 (log ) y 2M de NaCl (log En la Tabla 20 se muestran los valores obtenidos en este trabajo y los encontrados en la literatura. (60,61) Las condiciones experimentales son diferentes entre ellos. Aunque los valores obtenidos en este trabajo están en el mismo orden de magnitud a los reportados por D. F. Peppard et al (60) y T. Goto et al (61) (a excepción del valor que presenta el lutecio), es importante notar que los resultados de los otros autores no siguen la conducta química que debiera esperarse, como los resultados del presente trabajo, es decir, los valores de logβ 1,Cl disminuyen con el número atómico.…”

Determinación de las constantes del producto de solubilidad de Ln(OH)3 y el efecto de los iones cloruro sobre la hidrólisis de lantano, praseodimio y lutecio en soluciones acuosa e fuerza iónica 2 molar