View PDF Version
 
DOI: 10.1039/A905157K (Paper) Reference Section for: Analyst, 1999, 124, 1873-1877

Mechanised flow system for on-line microwave digestion of food samples with off-line catalytic spectrophotometric determination of cobalt at ng l–1 levels

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

Edenir R. Pereira-Filho and Marco A. Z. Arruda

Abstract

A mechanised system for on-line slurry food sample digestion was developed and an off-line cobalt determination was performed. The stabilised slurry sample was introduced into an air carrier stream until reaching the digestion coils located inside a household microwave oven. Software written in Visual Basic 3.0 was developed to permit the transport of the slurry samples and the programming of the microwave oven and also the control of the mineralization valve. The proposed system was optimized for determination of cobalt in certified samples such as mussels, bovine liver and fish and also uncertified fish samples. The digestion parameters were established as 3 mol l–1 HNO3 for mussels, 3 mol l–1 HNO3 plus 0.16% v/v H2O2 for bovine liver and 12 mol l–1 HNO3 for fish employing maximum power for 5 min of microwave actuation. In the subsequent spectrophotometric method for the catalytic determination of cobalt, the Tiron and hydrogen peroxide concentrations were 1.8 × 10–3 and 3.0 × 10–4 mol l–1, respectively, and the sample residence time was 300 s as determined by an optimisation process. The proposed method features a linear range from 10 to 200 ng l–1 Co (r > 0.996) with detection and quantification limits of 1.7 and 5.5 ng l–1 Co, respectively. The precision, expressed as RSD, was 2.4% (n = 12) for repeatability and 5.2% (n = 10) for reproducibility and the accuracy of the proposed method was assessed by using certified samples and an alternative technique (ETAAS).

References

  1. E. R. Pereira-Filho, J. J. R. Rohwedder and M. A. Z. Arruda, Analyst, 1998, 123, 1023 RSC.
  2. M. de la Guardia, V. Carbonell, A. Morales-Rubio and A. Salvador, Talanta, 1993, 40, 1609 CrossRef CAS.
  3. J. L. Burguera, M. Burguera and M. R. Brunetto, At. Spectrosc., 1993, 14, 90 CAS.
  4. V. Karanassios, F. H. Li, B. Liu and E. D. Salin, J. Anal. At. Spectrom., 1991, 6, 457 RSC.
  5. S. J. Haswell and D. Barclay, Analyst, 1992, 117, 117 RSC.
  6. M. A. Z. Arruda, M. Gallego and M. Valcárcel, J. Anal. At. Spectrom., 1995, 10, 501 RSC.
  7. R. Sturgeon, S. N. Willie, B. A. Methven and J. W. H. Lam, J. Anal. At. Spectrom., 1995, 10, 981 RSC.
  8. M. A. Z. Arruda, M. Gallego and M. Valcárcel, J. Anal. At. Spectrom., 1996, 11, 169 RSC.
  9. C. C. Oliveira, E. A. G. Zagatto, A. N. Araúdjo and J. L. F. C. Lima, Anal. Chim Acta, 1998, 371, 57 CrossRef.
  10. M. Burguera and J. L. Burguera, Quim. Anal., 1996, 15, 112 Search PubMed.
  11. F. E. Smith and E. A. Arsenault, Talanta, 1996, 43, 1207 CrossRef CAS.
  12. H. M. Kuss, Fresenius' J. Anal. Chem., 1992, 343, 788 CrossRef CAS.
  13. M. Burguera and J. L. Burguera, Anal. Chim. Acta, 1998, 366, 63 CrossRef CAS.
  14. K. J. Lamble and S. Hill, Analyst, 1998, 123, 103R RSC.
  15. A. Morales-Rubio, M. L. Mena and C. W. McLeod, Anal. Chim. Acta, 1995, 308, 364 CrossRef CAS.
  16. M. A. Z. Arruda, A. H. Fostier and F. J. Krug, J. Braz. Chem. Soc., 1997, 8, 39 Search PubMed.
  17. M. L. Balconi, M. Borgarello, R. Ferraroli and F. Realini, Anal. Chim. Acta, 1992, 261, 295 CrossRef CAS.
  18. National Research Council, Nutrient Requirements of Dairy Cattle, National Academy Press, Washington, DC, 6th edn., 1988, p. 157 Search PubMed.
  19. E. J. Underwood, Trace Elements in Human and Animal Nutrition, Academic Press, New York, 4th edn., 1977, p. 545 Search PubMed.
  20. D. Perez-Bendito and M. Silva, Kinetic Methods in Analytical Chemistry, Ellis Horwood, Chichester, 1988, p. 329 Search PubMed.
  21. J. Ruzicka and E. H. Hansen, Flow Injection Analysis, Wiley, New York, 2nd edn., 1988, p. 498 Search PubMed.
  22. C. Pasquini and W. A. de Oliveira, Anal. Chem., 1985, 57, 2575 CrossRef CAS.
  23. H. Bergamin-Filho, B. F. Reis, A. O. Jacintho and E. A. G. Zagatto, Analyst, 1980, 117, 81 Search PubMed.
  24. J. Bognár, Mikrochim. Acta, 1961, 6, 903.
  25. M. Otto, J. Rentsch and G. Werner, Anal. Chim. Acta, 1983, 147, 267 CrossRef CAS.
  26. T. Yamane, Anal. Chim. Acta, 1981, 130, 65 CrossRef CAS.
  27. C. M. Sakamoto-Arnold and K. S. Johnson, Anal. Chem., 1987, 59, 1789 CrossRef CAS.
  28. G. E. Batley, Talanta, 1971, 18, 1225 CrossRef CAS.
  29. K. Isshiki and E. Nakayama, Talanta, 1987, 34, 277 CrossRef CAS.
  30. M. A. Z. Arruda, E. A. G. Zagatto, A. O. Jacintho and S. M. B. Brienza, J. Braz. Chem. Soc., 1991, 2, 47 Search PubMed.
  31. A. Malahoff, I. Y. Kolotyrkina and L. K. Shpigun, Analyst, 1996, 121, 1037 RSC.
  32. A. Krushevska, R. M. Barnes, C. J. Amarasiriwaradena, H. Foner and L. Martines, J. Anal. At. Spectrom., 1992, 7, 845 RSC.
  33. H. M. Kingston and L. B. Jassie, Introduction to Microwave Sample Preparation–Theory and Practice, American Chemical Society, Washington, DC, 1988, p. 263 Search PubMed.
  34. A. H. Fostier and J. R. Ferreira, Quim. Nova, 1995, 18, 425 Search PubMed.
  35. M. Würfels, E. Jackwerth and M. Stoeppler, Anal. Chim. Acta, 1989, 226, 1 CrossRef.
  36. A. Krushevska, R. M. Barnes, C. J. Amarasiriwaradena, H. Foner and L. Martines, J. Anal. At. Spectrom., 1992, 7, 851 RSC.
  37. A. Krushevska, R. M. Barnes and C. J. Amarasiriwaradena, Analyst, 1993, 118, 1175 RSC.
  38. L. Kotz, G. Henze, G. Kaiser, S. Pahlke and M. Veber, Talanta, 1979, 26, 681 CrossRef CAS.
  39. Analytical Methods Committee, Analyst, 1987, 112, 199 Search PubMed.
Click here to see how this site uses Cookies. View our privacy policy here.