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Highly Selective Recovery of Lanthanides by Using a Layered Vanadate with Acid and Radiation Resistance
Author(s) -
Sun Haiyan,
Liu Yang,
Lin Jian,
Yue Zenghui,
Li Weian,
Jin Jiance,
Sun Qian,
Ai Yuejie,
Feng Meiling,
Huang Xiaoying
Publication year - 2020
Publication title -
angewandte chemie
Language(s) - English
Resource type - Journals
eISSN - 1521-3757
pISSN - 0044-8249
DOI - 10.1002/ange.201912040
Subject(s) - lanthanide , vanadate , chemistry , adsorption , ion exchange , inorganic chemistry , europium , nuclear chemistry , selective adsorption , selectivity , ion , catalysis , organic chemistry
Abstract It is of vital importance to capture lanthanides (nuclear fission products) from waste solutions for radionuclide remediation owing to their hazards. The effective separation of lanthanides are achieved by an acid/base‐stable and radiation‐resistant vanadate, namely, [Me 2 NH 2 ]V 3 O 7 ( 1 ). It exhibits high adsorption capacities for lanthanides ( q m Eu =161.4 mg g −1 ; q m Sm =139.2 mg g −1 ). And high adsorption capacities are maintained over a pH range of 2.0–6.9 ( q m Eu =75.1 mg g −1 at low pH of 2.5). It displays high selectivity for Eu 3+ (simulant of An 3+ ) against a large excess of interfering ions. It can efficiently separate Eu 3+ and Cs + (or Sr 2+ ) with the highest separation factor SF Eu/Cs of 156 (SF Eu/Sr of 134) to date. The adsorption mechanism is revealed by calculations and XPS, EXAFS, Raman, and elemental analyses. These merits combined with facile synthesis and convenient elution makes the title vanadate a promising lanthanide scavenger for environmental remediation.