PENGARUH ION KROMIUM(III) PADA EKSTRAKSI ION TEMBAGA(II) MENGGUNAKAN EMULSI KEROSEN DENGAN 1-FENIL-3-METIL-4-BENZOIL-5-PIRAZOLON SEBAGAI PEMBAWA KATION
Abstract
Keywords
References
Basualto, C., Poblete, M., Marchese, J., Ochoa, A., Acosta, A., Sapag, J., & Valenzuela, F. (2006). Extraction of cadmium from aqueous solutions by emulsion liquid membranes using a stirred transfer cell contactor, Journal of the Brazilian Chemical Society, 17(7).
Bourenane, S., Samar, M. E. H., & Abbaci, A. (2003). Extraction of cobalt and lead from waste water using a liquid surfactant membrane emulsion. Acta Chimica Slovenika., 50, 663–675.
Chakravarti, A. K., Chowdhury, S. B., & Mukherjee, D. C. (2000). Liquid membrane multiple emulsion process of separation of copper(II) from waste waters. Colloids and Surfaces, A Physiochemical and Engineering Aspects, 166(1–3), 7–25.
Gan, S. (1980). Farmakologi dan terapi, Bagian Farmakologi Fakultas Kedokteran. Jakarta: Universitas Indonesia.
Gawronski, R. & Religa, P. (2007). Transport mechanism of chromium(III) through the unmixed bulk liquid membrane containing dinonylnaphthalenesul phonic acid as a carrier. Journal of Membrane Science, 289(1-2), 187–190.
Hamzah, B. (2010). Aplikasi 1-fenil-3-metil-4- bnezoil-5-pirazolon sebagai pembawa kation pada ekstraksi ion tembaga(II) menggunakan teknik emulsi membrane cair, Disertasi, Universitas Hasanuddin, Makassar.
Hamzah, B. & Said, I. (2006). Sintesis beberapa senyawa kelat turunan pirazolon dan aplikasinya pada ekstraksi ion logam dari larutan. Palu: Lembaga Penelitian Universitas Tadulako.
Hamzah, B. (2001). Determination of the extraction constant in cadmium extraction with HPMBP. Prosiding Seminar Nasional Kimia Palu, 22-25.
Hamzah, B., & Pulukadang, S.V. (1999). Sintesis 1-fenil-3-metil-4-benzoil-5-pirazolon dan aplikasinya pada ekstraksi logam berat dalam larutan. Lemlit Universitas Tadulako.
Ivanova, E. (1987). 1-phenyl-3-methyl-4- benzoyl-5-pyrazolone as extraction reagent for Cu, Zn, Ni, Co, Mn and Fe in AAS. Analytical Chemistry., 288(62).
Jia, J-M., Fu, L. & Yude, C. (1988). Synthesis of pyrazolone and extraction of metal ion. Journal of Radioanalytichal and Nuclear Chemistry., 131, 54-63.
Kozlowski, C., Apostoluk, W., Walkowiak, W., & Kita, A. (2002). Removal of Cr(VI), Zn(II) and Cd(II) ions by transport across polymer inclusion membranes with basic ion carriers. Physiochemical Problems of Mineral Processing, 36, 115–122.
Kozlowski, C., & Walkowiak, W. (2005). Applicability of liquid membranes in chromium transport with amines as ion carriers. Journal of membrane science, 266(1–2), 143–150.
Kumaresan, T., Begum, K. M. M. S., Sivashanmugam, P., Anantharaman, N., & Sundaram, S. (2003). Experimental studies on treatment of distillery effluent by liquid membrane extraction. Chemical Engineering Journal., 95, 199–204.
Luan, J., & Plaisicr, A. (2004). Study on treatment of wastewater containing nitrophenol compounds by liquid membrane process. Journal of Membrane Science, 229, 235-239.
Manea, F., Dalea, V., Masu, S., & Negrea, P. (2003). Separation of Co(II) and Ni(II) ions from wastewater by emulsion liquid membrane technique. Diunduh kembali dari http://www.prague2003.fsu.edu/ content/pdf/385.pdf.
Mitiche, L., Tingry. S., Seta, P. & Sohmoune, A. (2008). Facilitated transport of copper(II) across supported liquid membrane and polymeric plasticised membrane containing 3-phenyl-4-benzoylisoxazol -5-on as carrier. Journal of Membrane Science, 25(2), 605-611.
Park, W., Kim, G. W., Kim, S. S. & Sohn, I.J. (2001). Facilitated transport of Cr(VI) through a supported liquid membrane with trioctylmethyl ammonium chloride as a carrier. Sep.Sci.Tech, 36(10), 2309–2326.
Park, Y., Skelland, A. H. P., Forney, L. J., & Kim, J. H. (2006). Removal of phenol and substituted phenols by newly developed emulsion liquid membrane process. Water Research, 40, 1763-1772.
Sabry, R., Hafez, A., Khedr, M., & Hassanin, A.E. (2007). Removal of lead by an emulsion liquid membrane. Desalination, 212(1–3), 165–175.
Saleh, M.I., Ahmad, M., & Darus, H. (1990). Solvent extraction of lanthanum(III), europium(III), and lutetium(III) with fluorinated 1-phenyl-3-methyl-4-benzoyl- 5-pyrazolone into chloroform. Talanta, 37, 757-759.
Saravanan, S., Begum, K. M. M. S., & Anantharaman, N. (2006). Removal of hexavalent chromium by emulsion liquid membrane technique. Journal of the University of Chemical Technology and Metallurgy, 41(3), 333–342.
Sengupta, B., Sengupta, R., & Subrahmanyam, N. (2006). Copper extraction into emulsion liquid membranes using LIX 984N-C, Hydrometallurgy, 81(1), 67–73.
Sukardjo. (1985). Kimia koordinasi (Ed. 1st). Jakarta: Bina Aksara.
Valenzuela, F., Araneda, C., Vargas, F., Basualto, C., & Sapag, J. (2009). Liquid membrane emulsion process for recovery the copper content of a mine drainage. Chemical Engineering Research and Design, 87(1), 102-108.
Wang, S., He, P., Hao, D., & Zhu, Y. (2002). Treatment of Zn-containing acidic waste water by emulsion liquid membrane process. Diunduh kembali dari http://www.ilib.cn.
Yang, L., Zhang, Z., Guo, Y., Gao, X., & Takeuchi, H. (2005). Uranium(VI) extraction by liquid surfactant membrane with N-alkylcapro lactams as a carrier. Separation and Purification Technology, 47, 88-94.
Refbacks
- There are currently no refbacks.
p-ISSN: 2302-6030; e-ISSN: 2477-5185
CODEN: JAKUA7
Jurnal Akademika Kimia
Based on a work at http://jurnal.untad.ac.id/jurnal/index.php/jak
Indexed By