Journal
SOLVENT EXTRACTION AND ION EXCHANGE
Volume 36, Issue 2, Pages 136-149Publisher
TAYLOR & FRANCIS INC
DOI: 10.1080/07366299.2018.1431079
Keywords
-aminophosphonic acid; solvent extraction; separation; rare earths
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Funding
- 973 program [2012CBA01206]
- National Natural Science Foundation of China [21521092, 51222404]
- strategic priority research program of CAS [XDA02030100]
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Solvent extraction and separation of rare earths (REs: La similar to Lu, plus Y and Sc) by a novel synthesized extractant, (2-ethylhexylamino)methyl phosphonic acid mono-2-ethylhexyl ester (HEHAMP, abbreviated as H(2)A(2)), were investigated in chloride medium. The favorable separation factors (SFs) between adjacent heavy REs suggested that HEHAMP has a better separation performance than P507. The extracted complex of trivalent REs was determined to be REClH(2)A(4) by the slope analysis method. Thermodynamic parameters (H, G, and S) of Lu were calculated as 7.47kJ mol(-1), -6.05kJ mol(-1), and 45.4J mol(-1)K(-1) at 298.15K, respectively, which indicate that the extraction reaction of Lu is an endothermic process. The loading capacity of 30% (v/v) HEHAMP toward Lu(III), Yb(III), and Y(III) was about 15.17g Lu2O3/L, 14.46g Yb2O3/L, and 12.64g Y2O3/L, respectively. HCl is the most efficient stripping acid, and 92% of the loaded Yb(III) can be stripped by one-stage stripping with 2mol/L HCl.
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