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A methodology has been proposed for highly selective and highly sensitive extraction photometric determination of mercury with dithione.

        Mercury (II) from a highly acidic environment in the presence of iodide ions and dimethylformamide (DMF) has been found to be quickly and selectively extracted by chloroform and benzene. When chloroform or benzene solution of dithione and buffer solution with pH 2.5-14 is added to the extract and the aqueous-organic phases are shaken during 5-10 seconds, a painted complex compound is formed. The apparent molar repayment rate at a maximum light absorption of 610 nm is 7.1·104. The determination of mercury (II) is not prevented by 10,000 to 60,000 foreign ions within an error range of 2-5%.

       The developed method has been applied to the analysis of industrial wastewater. The analysis time is 2-3 minutes, relative to the standard deviation of 0.02. The correctness and reproducibility of the method has been verified by the methods of additives in waste water. The method can be used to determine micro-containing mercury in air, biological materials, ores, rocks and other chemically complex materials without prior separation of accompanying elements.

      The paper investigates conditions of selective extraction of a colorless halogenic complex of mercury (II) by inert organic solvents and its complexation with dithione directly in an organic phase, with the purpose of development of a highly selective, simple and accelerated method of extraction-photometric definition of mercury without preliminary separation of accompanying elements.

      As a result of the research, a new highly selective, accelerated and simple extraction-photometric method for determining mercury directly in the organic phase has been developed.

Therefore, the developed method of extraction-photometric determination of mercury is recommended for the analysis of mercury in industrial wastewater, ores, rocks, concentrates, industrial waste and other chemically complex materials.

 

  • Internet havola
  • DOI
  • UzSCI tizimida yaratilgan sana 13-07-2021
  • O'qishlar soni 412
  • Nashr sanasi 27-03-2021
  • Asosiy tilIngliz
  • Sahifalar4-12
English

A methodology has been proposed for highly selective and highly sensitive extraction photometric determination of mercury with dithione.

        Mercury (II) from a highly acidic environment in the presence of iodide ions and dimethylformamide (DMF) has been found to be quickly and selectively extracted by chloroform and benzene. When chloroform or benzene solution of dithione and buffer solution with pH 2.5-14 is added to the extract and the aqueous-organic phases are shaken during 5-10 seconds, a painted complex compound is formed. The apparent molar repayment rate at a maximum light absorption of 610 nm is 7.1·104. The determination of mercury (II) is not prevented by 10,000 to 60,000 foreign ions within an error range of 2-5%.

       The developed method has been applied to the analysis of industrial wastewater. The analysis time is 2-3 minutes, relative to the standard deviation of 0.02. The correctness and reproducibility of the method has been verified by the methods of additives in waste water. The method can be used to determine micro-containing mercury in air, biological materials, ores, rocks and other chemically complex materials without prior separation of accompanying elements.

      The paper investigates conditions of selective extraction of a colorless halogenic complex of mercury (II) by inert organic solvents and its complexation with dithione directly in an organic phase, with the purpose of development of a highly selective, simple and accelerated method of extraction-photometric definition of mercury without preliminary separation of accompanying elements.

      As a result of the research, a new highly selective, accelerated and simple extraction-photometric method for determining mercury directly in the organic phase has been developed.

Therefore, the developed method of extraction-photometric determination of mercury is recommended for the analysis of mercury in industrial wastewater, ores, rocks, concentrates, industrial waste and other chemically complex materials.

 

Muallifning F.I.Sh. Lavozimi Tashkilot nomi
1 Abdullayeva D.K. Katta o'qituvchi TDTU
2 Charuvila T.A. Professor Mahatma Gandi University
3 Turabjanov S.M. Professor TDTU
4 Giyasov A.S. Dotsent TDTU
5 Raximova L.S. Dotsent TDTU
Havola nomi
1 Gladyshev V.P., Levitskaya S.A., Phillpova L.M. 1. Analytical chemistry of mercury. M.: Science. -1974 - Pages 228 – 93 (in Russian).
2 A.M. Lukin, K.A. Smirnova, Mercury Reagent Assortment. - Moscow: BIITECHEM Publishing House - 1967.- p - 40 (in Russian).
3 Eshwar M.C., Nagarkar S.G. Z. Anal.Chem.1972, V.260. p – 289 (in Russian).
4 T.V.Ramakrishna, G.Aravamudan , M. Vijarakumar . Anal.Chim. Acta, 1976. V 84, p – 369 (in Russian).
5 Kamatsu Sumno, Namura Tosnaku. J.Chem.Soc. Japan Pure Chem. Sec, 1967.V 88. P – 542.
6 S.M.Turabdjanov, L.S.Rakhimova, I.K. Beknazarova, A.Sh. Giyasov. Modern ecoanalytical extraction-spectrophotometric method for the determination of copper with 1- (2-pyridylazo) -2-naphthol (PAN). Chemical Technology. Moscow, 2018. 7.19. М: 11. Pages - 523-528.
7 S.M.Turabdjanov, L.S.Rakhimova, V.U.Otakuzieva, I.K.Kayumova., T.V. Ponamareva, A.Sh. Giyasov. Selective extraction-spectrophotometric determination of gold (III) directly in the organic phase. Moscow, Chemistry and biology, 2019, Issue 8, Pages - 12-29.
8 Bulatov, M.I.; Kalichkin, I.P. Practical Manual on Photocolorimetric Methods of Analysis - 1986. Pages 244-251 (in Russian).
9 Mitchell J., Smith D. Aquametry. M.: Chemistry – 1980.- Pages 345- 354.
10 A. Zolotov, B.Z. Iofa, L.K. Chuchalin Extraction of Halogenide Complexes of Metals. Moscow: Science. 1973, p - 379 (in Russian).
11 Clhalik J.Potensiometrie. Praha , CSAV,1961.
12 Aston S.R., Riley I. P. chim.acta, 59 349 (1972).
13 K.Rakhmatullayev, B.G.Zakirov. Extraction of indium iodide complex in the presence of dimethylpharmamide and its complexation with 1-(2-peridilazo) 2-naphthol in the organic phase. Bulletins of higher education institutions. Chemistry and Chemistry Technology 1979. Issue 6, Pages - 663-666 (in Russian).
14 K.Rakhmatullayev, A.S.Giyasov. Thallium Extraction (III) in the Presence of Chloride ions and Dimethylpharmamide and its Complexation in the Organic Phase. Bulletins of higher education institutions. Chemistry and Chemistry Technology 1984. T.27. Issue 9. Pages - 1028-1031 (in Russian).
15 I. V. Mironov, L. D. Tsvelodub . Electronic absorption spectra of thiourea complexes of monovalent copper, silver, and gold in an aqueous solution. 4, 1997, vol. 64, pp. 458-462.
16 S.Sasic, A.Antic-Jovanovic, M.Jeremic . An investigation of the equilibrium of mercury(II) thiocyanate complexes in DMF solutions via Raman spectra and factor analysis. J. Chem. Soc. Faraday Trans. 21, 1998, vol.94, рр.3255-3260.
17 Agarwal Arvind, A. N. Vishnoi. Chemical shifts of L[III] X-ray absorption edge of mercury and valence state of mercury ion in its compounds. Indian J. Phys. A N 2, 2000, vol.74, pp.127-129.
18 V. L.Talrose, R. D.Jacob, A. L.Burlingame, M. A.Baldwin. Laser desorption-ionization mass spectrometry of complex salts of cesium, mercury, and iodine. Chem. Phys. N 4, 2002, vol. 21, pp. 6-17. Castro Miguel, Cruz Julian, Otazo-Sanchez Elena, Perez-Marin Leone l. Theoretical study of the Hg{2+} recognition by 1,3-diphenyl-thiourea. J. Phys. Chem. A N 42, 2003, vol.107, pp.9000-9007.
19 Castro Miguel, Cruz Julian, Otazo-Sanchez Elena, Perez-Marin Leonel. Theoretical study of the Hg{2+} recognition by 1,3-diphenyl-thiourea. J. Phys. Chem. A N 42, 2003,vol.107,pp.9000-9007.
20 Eland John H. D., Feifel Raimund, Edvardsson David .Single and double photoelectron spectroscopy of atomic mercury..J. Phys. Chem. A N 45, 2004, vol.108, pp.9721-9725.
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