View PDF Version
 
DOI: 10.1039/A808484J (Paper) Reference Section for: Analyst, 1999, 124, 331-334

Conductimetric sensor for atrazine detection based on molecularly imprinted polymer membranes

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

T. A. Sergeyeva, S. A. Piletsky, T. L. Panasyuk, A. V. El’skaya, A. A. Brovko, E. A. Slinchenko and L. M. Sergeeva

Abstract

Atrazine-sensitive conductimetric sensors were designed using molecularly imprinted polymer membranes. Membranes containing artificial recognition sites for atrazine were prepared by copolymerization of methacrylic acid and a cross-linker, tri(ethylene glycol) dimethacrylate, in the presence of atrazine as a template. In order to improve the flexibility and mechanical stability of the membranes, oligourethane acrylate was added to the mixture of monomers. The recognition sites complementary to atrazine were formed in the membranes after extraction of the template molecules with ethanol. Alternatively, reference polymer membranes were prepared with the same monomers but without the template. The responses of the membranes prepared with and without the template were monitored conductimetrically. The membranes prepared in the presence of atrazine showed significantly stronger responses to atrazine than to analogous compounds (triazine, simazine, prometryn). The response time was 6–15 min depending on the membrane thickness. The effect of the membrane composition and the porogen concentration on the magnitude of the conductimetric responses was also investigated. With the sensor designed here, the detection of the atrazine at concentrations down to 5 nmol dm–3 was demonstrated. During a 6 month period, the sensitivity of the molecularly imprinted membranes to atrazine was found to remain constant.

References

  1. A. A. Boydboland, S. Magdic and J. B. Pawliszyn, Analyst, 1996, 121, 929 RSC.
  2. R. Eisert and K. Levsen, J. Am. Soc. Mass Spectrom., 1995, 6, 1119 CrossRef CAS.
  3. C. D. Watts and B. Hegarty, Pure Appl. Chem., 1995, 67, 1533.
  4. C. Mouvet, S. Broussard, R. Jeannot, C. Maciag, R. Abuknesha and G. Ismail, Anal. Chim. Acta, 1995, 311, 331 CrossRef CAS.
  5. M. Franek, V. Kolar and S. A. Eremin, Anal. Chim. Acta, 1995, 311, 349 CrossRef CAS.
  6. G. G. Guilbault, B. Hock and R. Schmid, Biosens. Bioelectron., 1992, 7, 411 CrossRef CAS.
  7. F. F. Bier, R. Jockers and R. D. Schmid, Analyst, 1994, 119, 437 RSC.
  8. A. Brecht, J. Pichler, G. Lang and G. Gauglitz, Anal. Chim. Acta, 1995, 311, 289 CrossRef CAS.
  9. G. Wulff, Angew. Chem., Int. Ed. Engl., 1995, 34, 1812 CrossRef CAS.
  10. K. J. Shea, Trends Polym. Sci., 1994, 2, 166 Search PubMed.
  11. O. Ramstrom, I. A. Nicholls and K. Mosbach, Tetrahedron: Asymmetry., 1994, 5, 649 CrossRef.
  12. M. Siemann, L. I. Andersson and K. Mosbach, J. Agric. Food Chem., 1996, 44, 141 CrossRef CAS.
  13. D. Kriz and K. Mosbach, Anal. Chim. Acta, 1995, 300, 71 CrossRef CAS.
  14. S. A. Piletsky, E. V. Piletskaya, A. V. Elgersma, K. Yano, I. Karube, Yu. P. Parhometz and A. V. El'skaya, Biosens. Bioelectron., 1995, 10, 959 CrossRef CAS.
  15. S. A. Piletsky, T. L. Panasyuk, E. V. Piletskaya, A. V. El'skaya, R. Levi, I. Karube and G. Wulff, Macromolecules, 1998, 31, 2137 CrossRef CAS.
  16. J. Matsui, M. Okada, M. Tsuruoka and T. Takeuchi, Anal. Commun., 1997, 34, 85–87 Search PubMed.
  17. M. T. Muldoon and L. H. Stanker, Anal. Chem., 1997, 69, 803 CrossRef CAS.
  18. J. Matsui, H. Kubo and T. Takeuchi, Anal. Sci., 1998, 14, 699 CAS.
  19. Yu. L. Spirin, Yu. S. Lipatov, V. V. Magdinets, L. M. Sergeeva, Y. Y. Kercha, T. T. Savchenko and L. N. Vilenskaya, Vysokomol. Soedin., Ser. A, 1968, 10, 2116 Search PubMed.
  20. R. N. Kienle and N. J. Ridgewood, Germ. Pat., 1 085 671, 1961 Search PubMed.
  21. H. S. Andersson and I. A. Nicholls, Bioorg. Chem., 1997, 25, 203 CrossRef CAS.
  22. G. Wulff, J. Vietmeyer and H.-G. Poll, Makromol. Chem., 1987, 188, 731 CAS.
  23. J. Damen and D. C. Neckers, Tetrahedron Lett., 1980, 21, 1913 CrossRef CAS.
  24. O. Ramstrom, L. I. Andersson and K. Mosbach, J. Org. Chem., 1993, 58, 7562 CrossRef.
  25. S. A. Piletsky, E. V. Piletskaya, A. V. El'skaya, R. Levi, K. Yano and I. Karube, Anal. Lett., 1997, 30, 445 CAS.
  26. S. A. Piletsky, I. Ya. Dubey, D. M. Fedoryak and V. P. Kukhar, Biopolym. Kletka, 1990, 6, 55 Search PubMed.
  27. J. Mathew-Krotz and K. J. Shea, J. Am. Chem. Soc., 1996, 118, 8154 CrossRef CAS.
  28. M. Yoshikava, J. Izumi, T. Ooi, T. Kitao, M. D. Guiver and J. P. Robertson, Polym. Bull., 1998, 40, 517 CrossRef CAS.
  29. L. E. Nielsen, Mechanical Properties of Polymers and Composites, Marcel Dekker, New York, 1974 Search PubMed.
  30. E. Terpetschnig, S. A. Piletsky, E. Pringsheim and O. S. Wolfbeis, in Applied Fluorescence in Chemistry, Biology and Medicine, ed. W. Rettig, Springer, Heidelberg, 1998, pp. 277–295 Search PubMed.