Email this article 
Component complexation study of Ni(II) with 1,3-diphenyl-2-(2-hydroxy-4-nitrophenylhydrozo) propodion-1,3
- Authors: Mardanova V.I.1, Taxirli S.A.2, Hajiyeva S.R.1, Chyragov F.M.1
-
Affiliations:
- Baku State University
- Lankaran State University
- Issue: Vol 10, No 2 (2020)
- Pages: 196-204
- Section: Chemical Sciences
- URL: https://bakhtiniada.ru/2227-2925/article/view/299674
- DOI: https://doi.org/10.21285/2227-2925-2020-10-2-196-204
- ID: 299674
Cite item
Full Text
Abstract
The effect of various components, including α,α′-dipyridyl (α,α′-dip), phenanthroline (Phen) and bathophenanthroline (B-phen), on the complexation of Ni(II) with 1,3-diphenyl–2-(2-hydroxy-4-nitrophenylhydrozo)propodion-1,3 (R) was studied. Homogeneous (Ni(II)-R) and mixed-ligand (Ni(II)-R-α,α'- dip, Ni(II)-R-Phen and Ni(II)-R-B-phen) complex compounds are determined to form at pH = 6, 5.5 and 5, respectively. The yield of the Ni(II)-R complex is established to be maximal at R concentration of 8·10-5 M; Ni(II)-R-α,α'-dip – at concentration R and α,α'-dip of 8·10-5 and 5.2·10-5 M, respectively; Ni(II)-R-Phen – at concentration R and Phen of 8·10-5 and 4.8·10-5 M, respectively; Ni(II)-R-B-phen – at concentration of R and B-phen 8·10-5 and 4·10-5 M, respectively. All complexes, which differ in stability, were determined to form immediately after mixing the solutions of the components. The ratio of reacting components in the composition of homogeneous (1:2) and mixed (1:2:1) ligand compounds is established in terms of conformity to Beer's law. The equation coefficients for the calibration curve were obtained by the method of least squares. In the complexation of nickel(II), the А = f(c) dependence was shown to be expressed by linear equations. The stability constants of homogeneous (Ni(II)-R) and mixed-ligand (Ni(II)-R-α,α'-dip, Ni(II)-R-Phen and Ni(II)-R-B-phen) complexes were calculated. Under optimal complexation conditions, Ni(II)-R was titrated with a solution of the components, including α,α'-dip, Phen and B-phen, using the conductometric method. The effect of foreign ions on the complexation of nickel(II) with R both in the absence and presence of other components was studied. In the presence of other components, the selectivity of complexation reactions was established to increase significantly. These reagents were proved to be more selective for spectrophotometric determination of nickel(II) in comparison with reagents known from the literature. The developed technique was applied for nickel(II) determination in three varieties of apples.
Keywords
About the authors
V. I. Mardanova
Baku State University
Email: vusala_chem@mail.ru
Sh. A. Taxirli
Lankaran State University
Email: Taxirli87@mail.ru
S. R. Hajiyeva
Baku State University
Email: fidan_chem@rambler.ru
F. M. Chyragov
Baku State University
Email: fidan_chem@rambler.ru
References
- Shabani H.A., Dadfarnia S., Shahbaazi Z., Jafari A.A. Extraction-spectrophotometric determination of nickel at microgram level in water and wastewater using 2-phenol // Bulletin of the Chemical Society of Ethiopia. 2008. Vol. 22. Issue 3. P. 323–329. https://doi.org/10.4314/bcse.v22i3.61196
- Kumar K.S., Swaroop B.L., Rao S.P., Chiranjeevi P. Spectrophotometric determination of nickel using a new chromogenic reagent in plant leaves // International Journal of Environmental Studies. 2004. Vol. 61. Issue 6. P. 719–726. https://doi.org/10.1080/00207230410001688143
- Sarma L.S., Kumar J.R., Reddy K.J., Thriveni T., Reddy A.V. Development of highly sensitive extractive spectrophotometric determination of nickel(II) in medicinal leaves, soil, industrial effluents and standard alloy samples using pyridoxal-4-phenyl-3-thiosemicarbazone // Journal of Trace Elements in Medicine and Biology. 2008. Vol. 22. Issue 4. P. 285–295. https://doi.org/10.1016/j.jtemb.2008.06.003
- Марданова В.И., Тахирли Ш.А., Чырагов Ф.М. Изучение комплексо-образования никеля(II) с 1-фенил–2-(2–гидрокси–4-нитрофенилгидрозо) бутадио-1,3 в присутствии третьих компонентов // East European Scientific Journal. 2018. Vol. 10. Issue 38. P. 63–67.
- Li Z., Pan J., Tang J. Determination of nickel in food by spectrophotometry with o-carboxylbenzenediazoaminoazobenzene // Analytical Letters. 2002. Vol. 35. Issue 1. P. 671–183. https://doi.org/10.1081/AL-120002369
- Марданова В.И., Тахирли Ш.А., Бабаев А.Г., Чырагов Ф.М. Изучение комплексообразования никеля(II) с 1-фенил-2-(2-гидрокси-4-нитрофенилгидрозо) бутадио-ном-1,3 в присутствии третьих компонентов // Химические проблемы. 2019. N 2. P. 316–322. https://doi.org/ 10.32737/ 2221-8688-2019-2-316-322
- Hu Q., Yang G., Huang Z., Yin J. Determination of nickel with 2-(2-quinolylazo)-5-diethylaminoaniline as a chromogenic reagent //Analytical Sciences 2003. Vol. 19. Issue 10. P. 1449–1452. https://doi.org/10.2116/analsci.19.1449
- Kumar B.N., Kanchi S., Sabela M.I., Bisetty K., Jyothi N.V.V. Spectrophotometric determination of nickel (II) in waters and soils: novel chelating agents and their biological applications supported by DFT method // Karbala International Journal of Modern Science. 2016. Vol. 2. Issue 4. P. 239–250. https://doi.org/10.1016/j.kijoms.2016.08.003
- Alieva R.A., Melikova V.I., Chyragov F.M. Pyrogallol azo derivatives as analytical reagents for determining nickel(II) // Journal of Analytical Chemistry. 2007. Vol. 62. Issue 6. P. 526–529. https://doi.org/10.1134/S1061934807060056
- Bai K.A., Vallinath G.V.S., Chandrasekhar K.B., Devanna N. Derivative spectrophotometric determination of nickel(II) using 3,5-dimethoxy-4-hydroxy benzaldehyde isonicotinoyl hydrazine (DMHBIH) // Rasayan Journal of Chemistry. 2010. Vol. 3. Issue 3. P. 467–472.
- Barman B., Barua S. Spectrophotometric determination of nickel(II) by using bis-pyridine disodium salt // Asian Journal of Chemistry. 2009. Vol. 21. Issue 7. P. 5469–5474.
- Li X.-D., Zhai Q.-Z. Spectrophotometric determination of nickel with chlorophosphonazo-III // Chemical Science Transactions. 2014. Vol. 3. Issue 3. P. 1023–1026. https://doi.org/10.7598/ost2014.803
- Ranganath B., Basha V.S., Jayapal M.R., Ramana P.V. Direct Spectrophotometric determination of Ni(II) using esomeprazole // International Journal of Pharmacy and Chemistry. 2015. Vol. 1. Issue 1. P. 7–11. https://doi.org/10.11648/j.ijpc.20150101.12
- Macit M., Bati H., Bati B. Synthesis of 4-benzyl-1-piperazineglyoxime and its use in the spectrophotometric determination of nickel // Turkish Journal of Chemistry. 2000. Vol. 24. Issue 1. P. 481–88.
- Проблемы химии и применения β-дикетонатов металлов / под. ред. В.И. Спицына. М.: Наука, 1982. 264 с.
- Бусев А.И. Синтез новых органических реагентов для неорганического анализа. М.: Изд-во МГУ, 1972. 245 с.
- Алиева Р.А., Айвазова А.В., Еспанди Ф.Е., Чырагов Ф.М. Спектрофотометрический метод определения железа (III) в разных сортах яблок // Известия вузов. Прикладная химия и биотехнология. 2018. Т. 8. N 1. C. 42–50.
- https://doi.org/10.21285/2227-2925-2018-8-1-42-50
- Залов А.З. Экстракционно-фотометрическое определение марганца(II) о-гидрокситиофенолом и аминофенолами // Вестник Санкт-Петербургского университета. Серия 4. Физика. Химия. 2015. Т. 2. N 1. С. 61–71.
- Батунер Л.М., Позин М.Е. Математические методы в химической технике. 4-е изд. Л.: Хим. лит., 1971. 638 c.
- Худякова Т.А., Крешков А.П. Теория и практика кондуктометрического и хронокондуктометрического анализа. М.: Химия. 1976. 304 с.
Supplementary files
