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As a relatively new extractant, di-(2,3-dimethylbutyl)-phosphinic acid (HYY-2) is more efficient to separate heavy rare earths Tm/Yb/Lu than Cyanex 272 and P507. In this paper, HYY-2 was synthesized in our lab, and the extraction equilibrium, ther-modynamics and stripping acidity for La, Gd and Y, which stood for light rare earth elements (REE), middle REE and heavy REE respectively, from nitrate media with this extractant were investigated. Meanwhile, extraction ability, capacity and stripping acidity of HYY-2 were investigated and compared with those of Cyanex 272 and P507. The separation performance for rare earth element cou-ples Gd/Eu and Er/Ywere also studied. Compared to Cyanex 272, it possessed higher extraction capacity; while compared with P507, it has lower stripping acidity. The maximumβGd/Eu 1.46 occurred at pHequilibrium=2.78 and the maximumβEr/Y was 1.47 when pHequilibrium= 2.01.

参考文献

[1] Junlian Wang;Shengming Xu;Linyan Li.Synthesis of organic phosphinic acids and studies on the relationship between their structure and extraction-separation performance of heavy rare earths from HNO_3 solutions[J].Hydrometallurgy,2013:108-114.
[2] Wang, Junlian;Chen, Guang;Xu, Shengming;Li, Linyan.Synthesis of novel nonsymmetric dialkylphosphinic acid extractants and studies on their extraction-separation performance for heavy rare earths[J].Hydrometallurgy,2015:129-136.
[3] A. N. Turanov;V. K. Karandashev;V. E. Baulin.Extraction of Rare Earth Elements with Phosphoryl-Containing Lariat Crown Ether in the Presence of Ionic Liquids[J].Russian Journal of Inorganic Chemistry,20122(2):292-296.
[4] A. N. Turanov;V. K. Karandashev;V. E. Baulin.Extraction of Lanthanides(III) from Aqueous Nitrate Media with Tetra-(p-tolyl)[(o-Phenylene)Oxymethylene] Diphosphine Dioxide[J].Solvent Extraction and Ion Exchange,20094(4):551-578.
[5] Yinghui Liu;Lili Zhu;Xiaoqi Sun.Toward Greener Separations of Rare Earths: Bifunctional Ionic Liquid Extractants in Biodiesel[J].AIChE Journal,20109(9):2338-2346.
[6] Sun, X.;Luo, H.;Dai, S..Ionic liquids-based extraction: A promising strategy for the advanced nuclear fuel cycle[J].Chemical Reviews,20124(4):2100-2128.
[7] 王君平;赵洁莹;冯达;康鑫淳;孙云雨;赵玲玲;梁洪泽.Enhancing extraction ability by rational design of phosphoryl functionalized ionic liquids and mechanistic investigation on neodymium (III) extraction[J].稀土学报(英文版),2016(1):83-90.
[8] Y. Xiong;X. Wang;D. Li.Synergistic Extraction and Separation of Heavy Lanthanide by Mixtures of Bis(2,4,4-trimethylpentyl)phosphinic Acid and 2-Ethylhexyl Phosphinic Acid Mono-2-Ethylhexyl Ester[J].Separation Science and Technology,200511(11):2325-2336.
[9] Wang, Yanliang;Li, Fujian;Zhao, Zeyuan;Dong, Yamin;Sun, Xiaoqi.The novel extraction process based on CYANEX (R) 572 for separating heavy rare earths from ion-adsorbed deposit[J].Separation and Purification Technology,2015:303-308.
[10] 余晓皎;姚秉华;永长幸雄.二(2-乙基己基)膦酸萃取不同介质中Pr3+的研究[J].稀有金属材料与工程,2007(6):1099-1101.
[11] N.E. El-Hefny;Y.A. El-Nadi;J.A. Daoud.Equilibrium and mechanism of samarium extraction from chloride medium using sodium salt of CYANEX 272[J].Separation and Purification Technology,20103(3):310-315.
[12] 乌东北;牛春吉;李德谦.Extraction Mechanism of La3+ from Hydrochloric Acid Solution Using Cyanex 302[J].稀土学报(英文版),2004(1):179-182.
[13] LU Jun;MENG Shu-lan;Li De-qian;YE Wei-zhen.Rare Earth Separation with 1-Hexyl-4-Ethyloctyl Isopropylphosphonic Acid Extractant[J].中国稀土学报(英文版),2000(04):258.
[14] 付念新;隋智通;Mikiya TANAKA.盐酸液中钇(Ⅲ)和铕(Ⅲ)的P507溶剂萃取平衡分析[J].中国有色金属学报(英文版),2011(9):2093-2098.
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