Enhancing extraction ability by rational design of phosphoryl functionalized ionic liquids and mechanistic investigation on neodymium(III) extraction 被引量：3

Enhancing extraction ability by rational design of phosphoryl functionalized ionic liquids and mechanistic investigation on neodymium(III) extraction

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摘要 Four ionic liquids （ILs）： 3-（diethoxyphosphoryl）propyl triphenylphosphinium hexafluorophosphate [Ph3PC3P（OEt）2][PF6] （IL-1）, 3-（ethoxyphenylphosphoryl）propyl triphenylphosphinium hexafluorophosphate [Ph3PC3PPh（OEt）][PF6] （IL-2）, 3-（diphenylphosphoryl）propyl triphenylphosphinium hexafluorophosphate [Ph3PC3P（Ph）2][PF6] （IL-3）, and 3-（diethoxyphosphoryl）propyl triphenylphosphinium bis（trifluoromethanesulfonyl）imide [Ph3PC3P（OEt）2][NTf2] （IL-4） were synthesized and characterized by IR and 31p, 1H, 13C NMR spectroscopy. The liquid-liquid extraction of neodymium（Ⅲ） by these phosphorus functionalized ionic liquids （PFILs） diluted with common room temperature ionic liquid 1-hexyl-3-methylimidazolium bis（trifluoromethylsulfonyl）imide [C6mim][NTf2] was studied. The extraction percentage of Nd（Ⅲ） was measured as a fimction of various parameters, such as the ini- tial pH of aqueous phase, equilibrium time, temperature, and concentration of PFIL extractant. The influence of the nature of diluents and salting-out reagents on extraction was also investigated. The results indicated that the extraction process was exothermical and the extraction percentage of Nd（Ⅲ） by IL-1 was the highest among the PFILs investigated. A possible metal complexation mechanism was proposed for the present PFIL/IL extraction system. And the loaded Nd（Ⅲ） ions by PFIL could be stripped completely from the ionic liquid phase by 1 mol/L nitric acid. Four ionic liquids （ILs）： 3-（diethoxyphosphoryl）propyl triphenylphosphinium hexafluorophosphate [Ph3PC3P（OEt）2][PF6] （IL-1）, 3-（ethoxyphenylphosphoryl）propyl triphenylphosphinium hexafluorophosphate [Ph3PC3PPh（OEt）][PF6] （IL-2）, 3-（diphenylphosphoryl）propyl triphenylphosphinium hexafluorophosphate [Ph3PC3P（Ph）2][PF6] （IL-3）, and 3-（diethoxyphosphoryl）propyl triphenylphosphinium bis（trifluoromethanesulfonyl）imide [Ph3PC3P（OEt）2][NTf2] （IL-4） were synthesized and characterized by IR and 31p, 1H, 13C NMR spectroscopy. The liquid-liquid extraction of neodymium（Ⅲ） by these phosphorus functionalized ionic liquids （PFILs） diluted with common room temperature ionic liquid 1-hexyl-3-methylimidazolium bis（trifluoromethylsulfonyl）imide [C6mim][NTf2] was studied. The extraction percentage of Nd（Ⅲ） was measured as a fimction of various parameters, such as the ini- tial pH of aqueous phase, equilibrium time, temperature, and concentration of PFIL extractant. The influence of the nature of diluents and salting-out reagents on extraction was also investigated. The results indicated that the extraction process was exothermical and the extraction percentage of Nd（Ⅲ） by IL-1 was the highest among the PFILs investigated. A possible metal complexation mechanism was proposed for the present PFIL/IL extraction system. And the loaded Nd（Ⅲ） ions by PFIL could be stripped completely from the ionic liquid phase by 1 mol/L nitric acid.

作者王君平赵洁莹冯达康鑫淳孙云雨赵玲玲梁洪泽

机构地区 Faculty of Materials Science and Chemical Engineering

出处《Journal of Rare Earths》 SCIE EI CAS CSCD 2016年第1期83-90,共8页 稀土学报（英文版）

基金 supported by Natural Science Foundation of Zhejiang Province(Y4100113) 2014 Regional Demonstration Project of Marine Economic Development of Ministry of Finance PRC and State Oceanic Administra tion PRC

关键词 ionic liquids EXTRACTION metal-solvate rare earths ionic liquids extraction metal-solvate rare earths

分类号 TF845 [冶金工程—有色金属冶金]

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参考文献2

1孙晓琦,纪杨,陈继,马玖彤.Solvent impregnated resin prepared using task-specific ionic liquids for rare earth separation[J].Journal of Rare Earths,2009,27(6):932-936. 被引量：15
2邹丹,陈继,李德谦.Separation chemistry and clean technique of cerium(IV): A review[J].Journal of Rare Earths,2014,32(8):681-685. 被引量：8

二级参考文献15

1朱兆武,赵娜,龙志奇,李德栋,崔大立,张国成.New Environment-Friendly Approach for Bastnasite Metallurgic Treatment (I): Extraction of Tetravalent Cerium from Sulphuric Acid Medium with Di(2-ethylhexyl) Phosphoric Acid[J].Journal of Rare Earths,2005,23(2):178-182. 被引量：8
2孙晓琦,徐爱梅,陈继,李德谦.离子液基萃取金属离子的研究进展[J].分析化学,2007,35(4):597-604. 被引量：14
3Han X X,Armstrong D W.Ionic liquids in separations[].Accounts of Chemical Research.2007
4Pwasserscheid P,Welton T.Ionic Liquids in Synthesis[]..2002
5Freundlich H.über die adsorption in l-sungen (Adsorption in solution)[].Journal of Physics.1906
6Dai S,Ju Y H,Barnes C E.Solvent extraction of strontium nitrate by a crown ether using room-temperature ionic liquids[].J Chem Soc Dalton Trans.1999
7Langmuir I.The constitution and fundamental properties of solids and liquids. part I Solids[].Journal of the American Chemical Society.1916
8Ivan L. Dukov and Maria Atanassova.Effect of the diluents on the synergistic solvent extraction of some lanthanides with thenoyltrifluoroacetone and quaternary ammonium salt[].Hydrometallurgy.2003
9NV Plechkova,KR Seddon.Applications of ionic liquids in the chemical industry[].Chemical Society Reviews.2008
10Nakashima K,,Kubota F,Maruyama T,Goto M.Ionic Liquids as a Novel Solvent for Lanthanide Extraction Analytical Sciences[].Journal of Analytical Science.2003

共引文献21

1ZHU LiLi,GUO Lin,ZHANG ZhenJiang,CHEN Ji,ZHANG ShaoMin.The preparation of supported ionic liquids (SILs) and their application in rare metals separation[J].Science China Chemistry,2012,55(8):1479-1487. 被引量：4
2王梅,张立麒,刘浩,张军营,郑楚光.咪唑类离子液体混合物吸收CO_2性能研究[J].燃料化学学报,2012,40(10):1264-1268. 被引量：10
3杨秀云,张建苹,郭琳,赵贺,张阳,陈继.离子液体Cyphos IL104的溶剂浸渍树脂的制备及其在铬(VI)回收中的应用(英文)[J].Transactions of Nonferrous Metals Society of China,2012,22(12):3126-3130. 被引量：6
4常宏涛,季尚军,李梅,柳召刚,张称心.P204与N235协同萃取钕的研究[J].有色金属（冶炼部分）,2015(3):36-40. 被引量：9
5王俊莲,孙春宝,徐盛明.基于稀土分离的萃淋树脂制备与应用研究[J].中国稀土学报,2015,33(2):129-145. 被引量：16
6刘红晶,潘阳,田贺,孟义征,赵薇,柳晓梅.功能离子液体［ NH2 ebim ］［ PF6］的合成及其吸收 CO2的研究[J].应用化工,2015,44(4):622-625. 被引量：3
7王月,靖宇,侯海龙,徐建鸿,王运东.Extraction of lanthanides by polysulfone microcapsules containing EHPNA. II. Coaxial microfluidic method[J].Journal of Rare Earths,2015,33(7):765-775. 被引量：1
8侯海龙,靖宇,王月,王运东,徐建鸿,陈晋南.Solvent extraction performance of Ce(Ⅲ) from chloride acidic solution with 2-ethylhexyl phosphoric acid-2-ethylhexyl ester(EHEHPA) by using membrane dispersion micro-extractor[J].Journal of Rare Earths,2015,33(10):1114-1121. 被引量：8
9刘海望,杨涛,陈庆德,沈兴海.离子液体体系的萃取行为及其在乏燃料后处理中的应用前景[J].核化学与放射化学,2015,37(5):286-309. 被引量：13
10季尚军,徐志刚,邹潜,李建,汤启明,王朝华.Mextral204P和Mextral336A混合萃取稀土元素的研究[J].有色金属（冶炼部分）,2016(8):56-59. 被引量：2

同被引文献57

1Talles Barcelos da Costa,Meuris Gurgel Carlos da Silva,Melissa Gurgel Adeodato Vieira.Recovery of rare-earth metals from aqueous solutions by bio/adsorption using non-conventional materials:a review with recent studies and promising approaches in column applications[J].Journal of Rare Earths,2020,38(4):339-355. 被引量：11
2韩旗英,周勇,张魁芳,刘志强,钟德强,凌诚,韩新福.沉淀母液和洗液回用的草酸沉淀稀土方法[J].稀土,2020,41(1):85-91. 被引量：7
3常宏涛,李梅,柳召刚,胡艳宏,张福顺.Study on separation of rare earth elements in complex system[J].Journal of Rare Earths,2010,28(S1):116-119. 被引量：3
4程倩,张晓岚,包伯荣,吴明红,叶国安,张先业.γ辐照对磷酸三异戊酯(TiAP)萃取铀(VI)的性能影响[J].辐射研究与辐射工艺学报,2004,22(5):285-288. 被引量：4
5何鹏,苍大强,宗燕兵,孙艳辉.化学气相传输法分离二元混合稀土氧化物[J].稀土,2005,26(1):53-56. 被引量：7
6李德谦.稀土湿法冶金工业中的化工问题[J].化学进展,1995,7(3):209-213. 被引量：20
7杨凤丽,邓佐国,徐廷华.环烷酸萃取钇工艺中存在的问题及优化措施[J].湿法冶金,2005,24(3):139-142. 被引量：17
8康文,刘峙嵘,李传茂,黄国林.萃取剂N-正丁基二乙酰亚胺的合成及其对铈(Ⅳ)的萃取行为[J].稀土,2006,27(3):57-60. 被引量：4
9王雁鹏,李玉武,殷惠民.CL-P507-HCl体系萃取色层法分离铒、铥、镱[J].湿法冶金,2008,27(1):22-24. 被引量：5
10黄小卫,李建宁,张永奇,龙志奇,王春梅,薛向欣.P204-P507在酸性硫酸盐溶液中对Nd^3＋和Sm^3＋的协同萃取[J].中国有色金属学报,2008,18(2):366-371. 被引量：25

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1Wenjie Zhang,Dongxia Feng,Xian Xie,Xiong Tong,Yunpeng Du,Yang Cao.Solvent extraction and separation of light rare earths from chloride media using HDEHP-P350 system[J].Journal of Rare Earths,2022,40(2):328-337. 被引量：3
2张文杰,童雄,谢贤,封东霞,杜云鹏,宋强.稀土分离纯化技术研究现状[J].中国稀土学报,2022,40(1):24-37. 被引量：12
3张文杰,童雄,杜云鹏,曹阳,封东霞,谢贤.溶剂法萃取分离稀土的研究进展[J].稀有金属,2022,46(12):1645-1656. 被引量：4

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1谢绍雷,时东,张禹泽,彭小五,鲁海龙,李丽娟.无机吸附材料分离提取铷铯的研究现状[J].稀有金属,2023,47(7):1020-1042.
2赵珍珍,肖春艳,冯世超,宋伟杰,万印华,李少华.正交法优化不同价态硝酸盐的纳滤分离工艺[J].膜科学与技术,2022,42(4):51-58. 被引量：1
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5余东海,安华英,杜若冰,李林艳,徐盛明,肖吉昌.高效的重稀土分离萃取剂——P227[J].中国稀土学报,2022,40(6):976-987.
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7刘德鹏,张蕴哲,郑旭东,齐少雷,赵龙胜,冯宗玉.利用大孔吸附树脂吸附和回收稀土萃余液中P507萃取剂的研究[J].中国稀土学报,2022,40(6):1090-1097. 被引量：2
8张江华,罗棋.集中式粉末钙源皂化稀土萃取有机相的工艺研究与工业应用[J].稀有金属与硬质合金,2022,50(6):18-21.
9隋娜,苗书凯,崔凯辉,黄焜.非平衡态萃取分离相邻重稀土Er和Tm[J].中国有色金属学报,2023,33(1):149-159.
10贺亚飞,弓爱君,孙金娥.稀土萃取分离技术方法研究[J].化学通报,2023,86(4):386-396.

1周哲,丛蓉娟,沈联芳.氮杂冠醚的NMR研究[J].厦门大学学报（自然科学版）,1991,30(4):399-403.
2邱挺,唐文莉,李承港,吴承明,李玲.酸功能化离子液体催化合成仲丁醇的反应动力学(英文)[J].Chinese Journal of Chemical Engineering,2015,23(1):106-111. 被引量：6
3黄飞隆,石睿恺,朱涛峰,李准,王邃,臧漫路,梁洪泽.膦酰基离子液体铕配合物的合成、结构与荧光性质[J].应用化学,2014,31(12):1434-1440. 被引量：1
4王君平,冯达,赵洁莹,康鑫淳,孙云雨,朱涛峰,梁洪泽.稀释剂对有机膦功能化离子液体萃取钕(Ⅲ)的影响[J].稀土,2016,37(5):97-103. 被引量：3
5Yue Qin Cai,Feng Lu,Yan Qing Peng,Gong Hua Song.Preparation and characterization of amino or carboxyl-functionalized ionic liquids[J].Chinese Chemical Letters,2007,18(1):21-23. 被引量：5
6Yuan Yuan Wang,Yue Tong Wu,Kun Liu,Li Yi Dai.Convenient synthesis and application of novel bi-SO_3H-functionalized ionic liquids based on piperazinium[J].Chinese Chemical Letters,2012,23(9):1031-1034. 被引量：3
7周舟,何德良,崔正丹,钟建芳,李国希.Electrochemical behavior of CoCl_2 in ionic liquid 1-butyl-3-methylimidazolium hexafluorophosphate[J].Journal of Central South University of Technology,2008,15(5):617-621.
8耿艳楼,胡利彦,赵新强,安华良,王延吉.Synthesis of 4,4＇-MDC in the Presence of Sulfonic Acid-functionalized Ionic Liquids[J].Chinese Journal of Chemical Engineering,2009,17(5):756-760. 被引量：12
9王香兰,尹恒,王姗姗.8-羟基喹啉对稀土钐和钇的萃取行为[J].应用化学,2012,29(1):90-94.
10SONG Feng-li,LI Jin-ying,LIN Can-sheng,ZHOU Chang-xin,LI Hui-bo,SU Zhe,WANG Xiao-rong.Qualitative Analysis of Radiolytic Products in TBP Extraction System[J].Annual Report of China Institute of Atomic Energy,2009(1):301-301.

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