http://orcid.org/0000-0001-5684-3021
References
- Belova, V. V., Voshkin, A. A., Kholkin, A. I., and Payrtman, A. K., 2009, “Solvent extraction of some lanthanides from chloride and nitrate solutions by binary extractants.” Hydrometallurgy, 97. pp. 198–203.
- Castillo, J., Coll, M. T., Fortuny, A., Donoso, P. N., Sepúlveda, R., and Sastre, A. M., 2014, “Cu(II) extraction using quaternary ammonium and quaternary phosphonium based ionic liquid.” Hydrometallurgy, 141. pp. 89–96.
- Cieszynska, A., and Wisniewski, M., 2012, “Extractive recovery of palladium (II) from hydrochloric acid solutions with Cyphos IL 104.” Hydrometallurgy, 113–114. pp. 79–85.
- Devi, N., 2016, “Solvent extraction and separation of copper from base metals using bifunctional ionic liquid from sulfate medium.” Transactions of Nonferrous Metals Society of China, 26. 3. pp. 874–881.
- Fernandes, A., Afonso, J. C., and Dutra, A. J. B., 2013, “Separation of nickel (II), cobalt(II) and lanthanides from spent Ni-MH batteries by hydrochloric acid leaching, solvent extraction and precipitation.” Hydrometallurgy, 133. pp. 37–43.
- Fortuny, A., Coll, M. T., and Sastre, A. M., 2012, “Use of methyltrioctyl/decylammonium bis 2,4,4-(trimethylpentyl)phosphinate ionic liquid (AliCy IL) on the boron extraction in chloride media.” Separation and Purification Technology, 97. pp. 137–141.
- Kumari, A., Sinha, M. K., Sahu, S. K., and Pandey, B. D., 2016, “Solvent extraction and separation of trivalent lanthanides using Cyphos IL 104, a novel phosphonium ionic liquid as extractant.” Solvent Extraction and Ion Exchange, 34. 5. pp. 469–484.
- Li, W., Wang, X., Zhang, H., Meng, S., and Li, D., 2007, “Solvent extraction of lanthanides and yttrium from nitrate medium with CYANEX 925 in heptanes.” Journal Chemical Technological Biotechnology, 82. pp. 376–381.
- Minagawa, Y., and Yamaguchi, K., 1990, “Relative extraction rates of rare earth ions from weakly acidic solution of binary mixture of rare earth chlorides by di-(2-ethyl-hexyl) phosphoric acid/kerosene.” Hydrometallurgy, 24. 3. pp. 333–350.
- Nayak, S., and Devi, N., 2017, “Studies on extraction of gallium (III) from chloride solution using Cyphos IL 104 and its removal from photodiodes and red mud.” Hydrometallurgy, 171. pp. 191–197.
- Preston, J. S., 1994, “Solvent extraction of the trivalent lanthanides and yttrium by some 2-bromoalkanoic acids.” Solvent Extraction and Ion Exchange, 12. 1. pp. 29–54.
- Reddy, M. L. P., Murali, M. S., and Mathur, J. N., 1998, “Extraction behavior of trivalent lanthanoids and yttrium with bis (2,4,4-trimethylpentyl)octylphosphine oxide.” Journal Radioanal Nuclear Chemical, 230. 1–2. pp. 29–32.
- Regel-Rosocka, M., Nowak, L., and Wisniewski, M., 2012, “Removal of zinc (II) and iron ions from chloride solutions with phosphonium ionic liquids.” Separation and Purification Technology, 97. pp. 158–163.
- Rosicky, L., and Hala, J., 1983, “Solvent extraction of yttrium(III) by TBP from acidic organic-aqueous solution.” Journal Radioanal Nuclear Chemical, 80. 1–2. pp. 43–48.
- Rout, A., and Binnemans, K., 2014, “Liquid-liquid extraction of europium (III) and other trivalent rare-earth ions using a non-fluorinated functionalized ionic liquid.” Dalton Transactions, 43. pp. 1862–1872.
- Rout, A., Venkatesan, K. A., Srinivasan, T. G., and Rao, P. R. V., 2012, “Ionic liquid extractants in molecular diluents: extraction behavior of europium (III) in quarternary ammonium-based ionic liquids.” Separation and Purification Technology, 95. pp. 26–31.
- Sun, X., Ji, Y., Guo, L., Chen, J., and Li, D., 2011, “A novel ammonium ionic liquid based extraction strategy for separating scandium from yttrium and lanthanides.” Separation and Purification Technology, 81. pp. 25–30.
- Sun, X., Ji, Y., Hu, F., He, B., Chen, J., and Li, D., 2010, “The inner synergistic effect of bifunctional ionic liquid extractant for solvent extraction.” Talanta, 81. pp. 1877–1883.
- Sun, X., Zhao, J., Meng, S., and Li, D., 2005, “Synergistic extraction and separation of yttrium from heavy rare earths using mixture of sec-octylphenoxy acetic acid and bis (2,4,4-trimethylpentyl) phosphinic acid.” Analysis Chimica Acta, 533. pp. 83–88.
- Swain, S. S., Nayak, B., Devi, N., Das, S., and Swain, N., 2016, “Liquid-liquid extraction of cadmium (II) from sulfate medium using phosphonium and ammonium based ionic liquids diluted in kerosene.” Hydrometallurgy, 162. pp. 63–70.
- Thakur, N. V., 2000, “separation of dysprosium and yttrium from yttrium concentrate using alkylphosphoric acid (D2EHPA) and alkylphosphonic acid (EHEHPA-PC 88A) as extractants.” Solvent Extraction and Ion Exchange, 18. 5. pp. 853–875.
- Tian, M., Song, N., Wang, D., Quan, X., Jia, Q., Liao, W., and Lin, L., 2012, “Applications of the binary mixture of sec-octylphenoxyacetic acid and 8-hydroxyquinoline to the extraction of rare earth elements.” Hydrometallurgy, 111–112. pp. 109–113.
- Valentina, I., Michelis, I., De, Bernd, K., and Veglio, F., 2014, “Yttrium recovery from primary and secondary sources: A review of main hydrometallurgical processes.” Waste Management, 34. 7. No.3. pp. 1237–1250.
- Wang, Y., Huang, C., Li, F., Dong, Y., Zhao, Z., and Sun, X., 2016, “The development of sustainable yttrium separation process from rare earth enrichments using bifunctional ionic liquid.” Separation and Purification Technology, 162. pp. 106–113.
- Wu, D., Niu, C., and Li, D., 2004, “Solvent extraction of scandium(III), yttrium(III), lanthanum(III) and gadolinium(III) using Cyanex 302 in heptane from hydrochloric acid solutions.” Journal Alloys., Comparative, 374. 1–2. pp. 442–446.
- Yang, F., Kubota, F., Baba, Y., Kamiya, N., and Goto, M., 2013, “Selective extraction and recovery of rare earth metals from phosphor powders in waste fluorescent lamps using an ionic liquid system.” Journal Hazardous Materials, 254– 255. pp. 79–88.
- Yang, H., Wang, W., Cui, H., Zhang, D., Liu, Y., and Chen, J., 2012, “Recovery of rare earth elements from simulated fluorescent powder using bifunctional ionic liquid extractants (Bif-ILEs).” Journal Chemical Technological Biotechnology, 87. pp. 198–205.
- Yanliang, W., Liao, W., and Li, D., 2011, “A solvent extraction process with mixture of CA12 and Cyanex272 for the preparation of high purity yttrium oxide from rare earth ores.” Separation and Purification Technology, 82. pp. 197–201.