Selective Solvent Extraction of In from Synthesis Solution of MOCVD Dust using D2EHPA
![]() |
Im, Byoungyong
(Institute for Advanced Engineering)
Swain, Basudev (Institute for Advanced Engineering) Lee, Chan Gi (Institute for Advanced Engineering) Park, Jae Layng (Institute for Advanced Engineering) Park, Kyung-Soo (Institute for Advanced Engineering) Shim, Jong-Gil (Enco co. Ltd.) Park, Jeung-Jin (Enco co. Ltd.) |
1 | Kim JG., 2012: Investigation on recycling in material flow on indium demand industry, J. Kor. Powd. Met. Inst, 19(1), pp. 72-78. DOI |
2 | Kinoshita T, et al., 2011: Selective recovery of gallium with continuous counter-current foam separation and its application to leaching solution of zinc refinery residues, Sep Purif Technol, 78(2), pp. 181-188. DOI |
3 | http://www.energy-news.co.kr/news/articleView.html?idxno=5564 |
4 | Ko KY, Park JH., 2011: Dissolution Behavior of Indium in CaO-SiO2-Al2O3 Slag, Metall Mater Trans B, 42(6), pp. 1224-1230. DOI |
5 | Lee J, Kim S, Shin D., 2014: Electrodeposition of Iron in HNO3 Solution Containing Iron Dissolved from Copper Slag, J Electrochem Soc, 161(14), pp. 719-724. DOI |
6 | Kim S, Seo B, Son S., 2014: Dissolution behavior of cobalt from WC-Co hard metal scraps by oxidation and wet milling process, Hydrometallurgy, 143, pp. 28-33. DOI |
7 | Swain B, et al., 2015: Recycling process for recovery of gallium from GaN an e-waste of LED industry through ball milling, annealing and leaching, Environ Res, 138, pp. 401-408. DOI |
8 | Swain B, et al., 2015: Recycling of metal-organic chemical vapor deposition waste of GaN based power device and LED industry by acidic leaching: Process optimization and kinetics study, J Power Sources, 281, pp. 265-271. DOI |
9 | Park K, et al., 2014: Study on leaching behavior for recovery of Ga Metal from LED scraps, Appl. Chem. Eng., 25(4), pp. 414-417. DOI |
10 | Choi Y, et al., 2014: Methode for making high purity gallium by electrowinning, J. of Korean inst. of Resources Recycling, 23(6), pp. 62-67. DOI |
11 | Liu L, et al., 2014: The influence of impurities on Ga electrowinning: Vanadium and iron, Hydrometallurgy, 146, pp. 76-81. DOI |
12 | Kim SG, Lee HY, Oh JK., 2000: Recovery of gallium from zinc residues by solvent extraction, J. of Korean inst. of Resources Recycling, 9(3), pp. 29-36. |
13 | Gupta B, et al., 2007: Extraction and recovery of Ga (III) from waste material using Cyanex 923, Hydrometallurgy, 87(1), pp. 18-26. DOI |
14 | Swain B, et al., 2006: Separation of cobalt and lithium from mixed sulphate solution using Na-Cyanex 272, Hydrometallurgy, 84(3), pp. 130-138. DOI |
15 | Das D, et al., 2015 : Effect of Nature of Organophosphorous Acid Moiety on Co-extraction of U (VI) and mineral acid from aqueous solutions using D2EHPA, PC88A and Cyanex 272. Hydrometallurgy, 152, pp. 129-138. DOI |
16 | Ahn H, et al., 2014: Recovery of Li from the Lithium Containing Waste Solution by D2EHPA, J. of Korean inst. of Resources Recycling, 23(5), pp. 21-27. DOI |
17 | Park K, et al., 2014: Leaching behavior of Ga and In from MOCVD dust, J. Kor. Powd. Met. Inst, 21(3), pp. 202-206. DOI |
18 | Flett D., 1999: New reagents or new ways with old reagents, J Chem Technol Biotechnol, 74(2), pp. 99-105. DOI |
19 | Jiaxu Yang, Christian Ekberg, and Teodora Retegan, 2014: Optimization of Indium Recovery and Separation from LCD Waste by Solvent Extraction with Bis(2-ethylhexyl) Phosphate (D2EHPA), Int. J. Chem. Eng, 2014, pp. 1-9. |
20 | Thakur N., 1998: Extraction studies of base metals (Mn, Cu, Co and Ni) using the extractant 2-ethylhexyl 2-ethylhexyl phosphonic acid, PC 88A, Hydrometallurgy, 48(1), pp. 125-131. DOI |
![]() |