Evaluation of phenylazonaphthols water-micelle interphase distribution using TLC data

  • С. Н. Штыков Shtykov Sergei Nickolaevich - Dr. Sci. (Chemistry), Professor, Division of Analytical Chemistry and Chemical Ecology, N.G. Chernyshevskii Saratov State University, Saratov. E-mail: shtykovsn@mail.ru
  • Мохаммед Забун Тхани Аль-Саиди Al-Saedi Mohammed Zaboon Thani – PhD student of the Institute of Chemistry, N.G. Chernyshevskii Saratov State University, Saratov
DOI: https://doi.org/10.17308/sorpchrom.2015.15/292
Keywords: thin-layer chromatography, azocompounds, micelles, partition coefficients

Abstract

The chromatographic behavior of two synthesized phenylazonaphthols 4-(phenylazo)-1-naphthol-2-
sulphonic acid (PANS) and 4-(4-sulphophenylazo)-1-naphthol-2-sulphonic acid (SPANS) on direct (Sorbfil),
reversed (RP-18) and polyamide-6 TLC plates in micellar mobile phases of sodium dodecylsulfate (SDS) and
triton X-100 (TX-100) was investigated. The detection and quantitative measurements of chromatograms in
TLC were conducted using a Sorbfil videodensitometer (Sorbopolymer, Russia). Experimental RF data were
used for calculation of water-micelle Kmw and water-stationary phase (SP) Ksw, partition coefficients, as well
as energy of analytes transfer ∆Gtrans from water to micelle and energy sorption ∆Gsorp on SP using
D.Armstrong three-phase model. It was shown that a plot of RF /(l - RF ) vs. Cm, (the concentration of
micelles in the mobile phase in g/mL) gives a straight line with slope (Vm/Vs
)((Kmw - l)ν/Ksw) and intercept
(Vm/Vs)(l/Ksw). Thus Kmw values were calculated using ν values for SDS 0.862 mL/g and for TX-100 0.912
mL/g). It was demonstrated that partition coefficients of PANS and SPANS depends on the hydrophobicity
of reagents, type of micelles and in some extent the nature of plate sorbent.

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References

1.Bafana A., Devi S.S., Chakrabarti T.,
Environ. Rev., 2011, Vol. 19, pp. 350-370.
2.Marczenko Z., Balcerzak M.
Spektrofotometryczne metody w analizie
nieorganicznej. Warszawa: Wydawnictwo
Naukowe PWN, 1998. 711 p.
3.Savvin S.B., Chernova R.K., Shtykov S.N.
Poverhnostno-aktivnye veshhestva [Surface
active substances]. Moscow: Nauka, 1991,
251 p.
4.Shtykov S.N., Okunev A.V., Safarova M.I.,
J. Anal. Chem., 2003, Vol.58, No 11, pp. 1031-
1037.
5.Al-Saedi M.Z.T., Shtykov S.N., Izv.
Saratovsk. un-ta. Novaja serija. Serija: Himija.
Biologija. Jekologija, 2015, Vol. 15, No 1,
pp. 9-14.
6.Armstrong D.W., Stine G.Y., J. Amer.
Chem. Soc., 1983, Vol. 105, No 10, pp. 2962-
2964.
7.Shtykov S.N., Sumina E.G., Tyurina N.V.,
J. Anal. Chem., 2002, Vol. 57, No 4,
pp. 322-325.
8.Shtykov S.N., Sumina E.G., Smushkina
E.V., Tyurina N.V., J. Planar. Chromatogr. –
Modern TLC, 1999, Vol. 12, No 2, pp. 129-134.
9.Sumina E.G., Shtykov S.N., Sorokina O.N.
et al. Sorbtsionnye i khromatograficheskie
protsessy, 2014, Vol. 14, No 1, pp. 52-64.
10. Paradles H.H., J. Phys. Chem., 1980,
Vol. 84, No 6, pp.599-607.
Published
2018-02-19
How to Cite
Штыков, С. Н., & Аль-Саиди, М. З. Т. (2018). Evaluation of phenylazonaphthols water-micelle interphase distribution using TLC data. Sorbtsionnye I Khromatograficheskie Protsessy, 15(3), 443-449. https://doi.org/10.17308/sorpchrom.2015.15/292
Issue
Vol 15 No 3 (2015): Sorption and chromatographic processes
Section
Статьи