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Chromatographia

, Volume 34, Issue 3–4, pp 177–181 | Cite as

Synthesis of acceptor bonded phases for donor-acceptor liquid chromatography

  • G. Félix
  • A. Thienpont
  • P. Dentraygues
Originals

Summary

The synthesis of several electron-acceptor stationary phases has been reviewed the materials evaluated for their capacity to separate polyaromatic hydrocarbons (PAHs). Chemically bonded phases were obtained by the same procedure; the organosilane moiety is monofunctional and the HPLC behaviour is compared under identical conditions. Examples of PAHs separations are given.

Key Words

Column liquid chromatography Synthesis of bonded stationary phases Acceptor ligands Normal phases PAHs 

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References

  1. [1]
    G. Briegless, Elektronen donator-acceptor komplexe, Springer-Verlag, Berlin, Göttingen, Heidelberg (1961).Google Scholar
  2. [2]
    R. Foster, Organic charge-transfer complexes, Academic Press, London, New York (1966).Google Scholar
  3. [3]
    W. B. Person, R. S. Mulliken, Molekular complexes, Wiley, New York (1969).Google Scholar
  4. [4]
    R. Forster, Molecular complexes, Elek Science, London (1973).Google Scholar
  5. [5]
    J. Yarwood, Spectroscopy and structure of molecular complexes, Plenum Press, London, New York (1973).Google Scholar
  6. [6]
    R. Forster, Molecular Association, Academic Press, London, New York, San Francisco (1975).Google Scholar
  7. [7]
    R. Forster, Molecular Association, Academic Press, London, New York, San Francisco (1979).Google Scholar
  8. [8]
    L. J. Andrews, Chem. Rev.,54, 713 (1954).Google Scholar
  9. [9]
    M. J. S. Dewar, Bull. Soc. chim. Fr.C17, 18 (1958).Google Scholar
  10. [10]
    S. P. Glynn, Chem. Rev.58, 113 (1958).Google Scholar
  11. [11]
    J. N. Murell, Quart Rev. (London)15, 191 (1961).Google Scholar
  12. [12]
    S. F. Mason, Quart. Rev. (London)15, 287 (1961).Google Scholar
  13. [13]
    R. Paetzold, Zeit. Chem.15, 377 (1975).Google Scholar
  14. [14]
    K. Morokura, Acc. Chem. Res.10, 294 (1977).Google Scholar
  15. [15]
    K. G. Cunningham, W. Dawson, F. S. Spring, J. Chem. Soc. 2305 (1951).Google Scholar
  16. [16]
    E. K. Andersen, Acta Chem. Scand.8, 157 (1954).Google Scholar
  17. [17]
    M. Godlewicz, Nature164, 1132 (1949).Google Scholar
  18. [18]
    D. Cagniant, V. A. Davankov, G. Félix, L. Nonded, Complexation Chromatography, Ed. D. Cagniant; Chromatogr. Sci. Ser.57 (1991).Google Scholar
  19. [19]
    W. Holstein, H. Hemetsberger, Chromatographia15, 186 (1982).Google Scholar
  20. [20]
    W. Holstein, H. Hemetsberger, Chromatographia15, 251 (1982).Google Scholar
  21. [21]
    G. Félix, C. Bertrand, Analusis17, 326 (1989).Google Scholar
  22. [22]
    H. Hemetsberger, H. Klar, H. Ricken, Chromatographia13, 277 (1980).Google Scholar
  23. [23]
    F. J. Moore, E. H. Huntress J. Am. Chem. Soc.49, 2618 (1927).Google Scholar
  24. [24]
    S. R. Francis, J. Org. Chem.8, 52 (1943).Google Scholar
  25. [25]
    S. R. Barrick, J. Am. Chem. Soc.70, 1492 (1948).Google Scholar
  26. [26]
    G. Félix, C. Bertrand, HRC & CC7, 714 (1984).Google Scholar
  27. [27]
    G. Félix, A. Thienpont, M. Emmelin, A. Faure, J. Chromatogr.461, 347 (1989).Google Scholar
  28. [28]
    W. Holstein, Chromatographia14, 468 (1981).Google Scholar
  29. [29]
    G. Félix, C. Bertrand, HRC & CC7, 160 (1984).Google Scholar
  30. [30]
    G. Félix, C. Bertrand, HRC & CC8, 362 (1985).Google Scholar
  31. [31]
    K. K. Unger, N. Becker, P. Roumeliotis, J. Chromatogr.125, 115 (1976).Google Scholar
  32. [32]
    M. Nyström, W. Hermann, D. Sanchez, P. Möller, HPLC87, Amsterdam, June 28–July 3 (1987).Google Scholar
  33. [33]
    A. Saint Yrieix, J. Amourpux, Bull. Soc. Chim. Fr.5, 225 (1982).Google Scholar
  34. [34]
    J. N. Kinkel, K. K. Unger, J. Chromatogr.,316, 143 (1984).Google Scholar
  35. [35]
    A. Lemorzellec, PhD Université de Bordeaux I (1989).Google Scholar
  36. [36]
    M. C. Hennion, C. Picard, M. Caude, J. Chromatogr.166, 91 (1978).Google Scholar
  37. [37]
    K. Jones, J. Chromatogr.392, 11 (1987).Google Scholar
  38. [38]
    E. Bayer, K. Albert, J. Reiners, M. Nieder, D. Müller, J. Chromatogr.264, 197 (1983).Google Scholar
  39. [39]
    B. Buszewski, M. El Mouelhi, K. Albert, E. Bayer, J. Liq. Chromatogr.13, 505 (1990).Google Scholar
  40. [40]
    B. Buszewski, Chromatographia29, 233 (1990).Google Scholar
  41. [41]
    G. Hellmann, Thesis, University of Clausthal (1984).Google Scholar
  42. [42]
    G. P. Blumer, M. Zande, Z. Anal. Chem.288, 277 (1977).Google Scholar
  43. [43]
    J. M. Robertson, J. G. White, J. Chem. Soc.358 (1982).Google Scholar
  44. [44]
    T. H. Mourey, S. Siggia, P. C. Unden, R. J. Crowley, Anal. Chem.52, 865 (1980).Google Scholar
  45. [45]
    Ph. Jadaud, M. Caude, R. Rosset, J. Chromatogr.439, 195 (1988).Google Scholar
  46. [46]
    International Agency for Research on Cancer, IARC Monographs on the evaluation of the carcinogenic risk of chemicals to man, Lyon (France),32, (1973, 1980, 1983).Google Scholar

Copyright information

© Friedr. Vieweg & Sohn Verlagsgesellschaft mbH 1992

Authors and Affiliations

  • G. Félix
    • 1
  • A. Thienpont
    • 1
  • P. Dentraygues
    • 1
  1. 1.ENSCPB/CNRS URA-35, 351, Crs de la libérationTalenceFrance

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