Interphase distribution of chloride complexes of rhody (III), ruthenia (III) in extraction systems based on liquid anion exchangers

  • Е. С. Гонтарь Gontar Elena S. – Ph.D. (chemistry), researcher, department of analytical chemistry, Donetsk National University, Donetsk
  • Т. Н. Симонова Simonova Tamara N. – Ph.D. (chemistry), associate professor, department of analytical chemistry, Donetsk National University, Donetsk, e-mail: simonovatn@yandex.ru
DOI: https://doi.org/10.17308/sorpchrom.2017.17/416
Keywords: extraction, chloride complexes of Rhodium (III), Ruthenium (III), liquid anion exchangers, primary alkylamines С12-С18, hetero-radical tertiary alkylamines

Abstract

The interphase distribution of associates of chloride complexes of Rhodium (III), Ruthenium (III) with liquid anion exchangers in chloroform has been studied by spectrophotometry, inductively coupled plasma optical emission spectrometry. The regularities of construction and properties of primary alkylamynes with normal construction (C12-C18), multiradical tertiary amines influence on their ability to extract highly-charged complexes of Rhodium (III), Ruthenium (III) from concentrated chloride solutions. Decrease in the volume of tertiary alkylamine radicals by substitution of two alkylamines for methyl compounds allows to reduce steric effects and use heterogeneous tertiary alkylamines such as dimethyl n-dodecylammonium to extract highly charged complexes of Rhodium (III), Ruthenium (III). The outer-sphere mechanism of extraction of high-charge complexes of Rhodium (III), Ruthenium (III) and composition of the extracted associate Rhodium (III) is determined by molecular spectrophotometry, IR spectroscopy, chemical analysis of saturated organic phase, molar ratios

Downloads

Download data is not yet available.

References

1. Shevchuk I.A. Jekstrakcija organicheskimi osnovanijami, Kiev, Vishha shkola, 1978, 172 р.
2. Shevchuk I.A., Simonova T.N. Jekstrakcija soedinenij cvetnyh i redkih metallov iz karbonatnyh, serusoderzhashhih i galogenidnyh rastvorov, Donetsk, DonGU, 1999, 215 p.
3. Ginzburg S.I. et al. Analiticheskaja himija platinovyh metallov. M., Nauka, 1972, 613 p.
4. Zolotov Yu.A., Varshal G.M., Ivanov V.M. Analiticheskaja himija metallov platinovoj gruppy: Sb. obzornyh statej. Moscow, Editorial URSS, 2003, 592 p.
5. Kolekar S.S., Anuse M.A., Talanta, 2002, Vol. 58, pp. 761-771. DOI: 10.1016/S0039-9140(02)00365-X.
6. Jaree A., Khunphkdee N., J. Ind. Eng. Chem., 2011, Vol. 17, pp. 243-247. DOI: 10.1016/j.jiec.2011.02.013.
7. Khattak M.A., Magee R.J., Anal. Chim. Acta, 1969, Vol. 45, pp. 297-304. DOI: 10.1016/S0003-2670(01)95601-6.
8. Shevchuk I.A., Simonova T.N., Gontar E.S., Ukrainian Chemistry Journal, 2006, Vol. 72, № 9, pp. 29-33.
9. Busko E.A., Burkov K.A., Kalinin S.K., J. of Analytical Chemistry, 1970, Vol. 25, No. 5, pp. 958-977.
10. Bashilov A.V., Kuz'min N.M., Nesterov A.A., Runov V.K., Russian Journal of Inorganic Chemistry, 2000, Vol. 45, No. 4, pp. 743-751.
11. Shmidt V.S. Jekstrakcija aminami. M., Atomizdat, 1980, 264 p.
12. Gindin L.M. Jekstrakcionnye processy i ih primenenie. M., Nauka, 1984, 144 р.
13. Meretukov M.A. Processy zhidkostnoj jekstrakcii v cvetnoj metallurgii. M., Metallurgija, 1985, 222 р.
Published
2018-02-22
How to Cite
Гонтарь, Е. С., & Симонова, Т. Н. (2018). Interphase distribution of chloride complexes of rhody (III), ruthenia (III) in extraction systems based on liquid anion exchangers. Sorbtsionnye I Khromatograficheskie Protsessy, 17(4), 585-591. https://doi.org/10.17308/sorpchrom.2017.17/416
Issue
Vol 17 No 4 (2017): Sorption and chromatographic processes
Section
Статьи