View PDF Version
 
DOI: 10.1039/A907665D (Paper) Reference Section for: Anal. Commun., 1999, 36, 387-389

Electrochemical behaviour of sodium dithionite at a platinum electrode and determination of diffusion coefficient in alkaline solution

(Note: The full text of this document is currently only available in the PDF Version )

E. Gasana, P. Westbroek, E. Temmerman and H. P. Thun

Abstract

The electrochemical behaviour of sodium dithionite at a platinum electrode has been investigated in this paper. Two oxidation waves of sodium dithionite were observed with formation of sulfite as a stable intermediate species. It has been found that the oxidation of sodium dithionite to sulfite, according to the first wave, is controlled by the rate of mass transport, the oxidation of sulfite to sulfate, however, is not purely controlled by transport phenomena. Using the ratio of the limiting currents of both oxidation waves it was possible to determine the diffusion coefficient of sodium dithionite by extrapolation to the small rotation rate of the platinum electrode. From the obtained results it is also advisable to make use of the first oxidation reaction for analytical purposes.

References

  1. H. U. Süss, H. Krüger and K. Schmidt, Papier (Darmstadt), 1980, 34, 433 Search PubMed.
  2. U. Baumgarte, Textilveredlung, 1969, 4, 821 Search PubMed.
  3. U. Baumgarte, Melliand Textilber., 1987, 68, 189 Search PubMed.
  4. U. Baumgarte, Melliand Textilber., 1975, 56, 228 Search PubMed.
  5. Hoechst, Die Schwefelfärbung unter erhöhten ökologischen Anforderungen, Frankfurt, 1993 Search PubMed.
  6. U. Baumgarte, Textilveredlung, 1967, 2, 896 Search PubMed.
  7. E. Feess, Melliand Textilber., 1964, 45, 67 Search PubMed; E. Feess, Melliand Textilber., 1964, 45, 172 Search PubMed; E. Feess, Melliand Textilber., 1964, 45, 296 Search PubMed; E. Feess, Melliand Textilber., 1964, 45, 413 Search PubMed.
  8. L. Brown and L. Szekeres, Talanta, 1979, 26, 414 CrossRef CAS.
  9. W. P. Kilroy, Talanta, 1979, 27, 343 CrossRef CAS.
  10. W. P. Kilroy, Talanta, 1983, 30, 419 CrossRef CAS.
  11. A. J. Bard, R. Parsons and J. Jordan, Standard Potentials in Aqueous Solution, Marcel Dekker, New York, 1985 Search PubMed.
  12. E. P. Serjeant, Potentiometry and Potentiometric Titrations, Wiley, New York, 1984 Search PubMed.
  13. J. Janata, Principles of Chemical Sensors, Plenum Press, New York, 1989 Search PubMed.
  14. F. Govaert, E. Temmerman and P. Kiekens, Anal. Chim. Acta, 1999, 385, 307 CrossRef CAS.
  15. W. Becker, C. Heinrichs, D. Knittel and E. Schollmeyer, Melliand Textilber., 1987, 68(5), 368 Search PubMed.
  16. F. Govaert, E. Temmerman and P. Westbroek, Anal. Commun., 1998, 35, 153 RSC.
  17. F. Camacho, M. P. Paez, M. C. Jimenez and M. Fernandez, Chem. Eng. Sci., 1997, 52, 1387 CrossRef CAS.
  18. A. A. Shaikh and S. M. J. Zaidi, J. Chem. Technol. Biotechnol., 1993, 56, 139 CAS.
  19. A. J. Bard, Encyclopedia of Electrochemistry of the Elements, Marcel Dekker, New York, 1975 Search PubMed.
  20. C. M. A. Brett and A. M. Oliveira Brett, Electrochemistry: Principles, Methods and Applications, Oxford University Press, New York, 1993 Search PubMed.
  21. J. O'M. Bockris and A. K. N. Reddy, Modern Electrochemistry, Vol. 2, Plenum Press, New York, 1970 Search PubMed.
Click here to see how this site uses Cookies. View our privacy policy here.