Bulletin of the Korean Chemical Society

Korean Chemical Society (대한화학회)
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The Pfeiffer Effect of [Co$^{II}$(acac)$_2$(diamine)] with Cinchona Alkaloid in Some Organic Solvents

  • Oh, Chang-Eon (Department of Chemistry, Yeungnam University) ;
  • Kim, Yang (Department of Chemistry, Yeungnam University)
  • Published : 1988.12.20
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Abstract

The Pfeiffer effect was examined on the systems of racemic [$Co^{II}(acac)_2$(diamine)] with d-cinchonine and l-cinchonidine as chiral environment substances in methanol, ethanol, chloroform and methanol-chloroform mixture solvents. It was found that the ${\Delta}$-enantiomer is enriched for the [$Co^{II}(acac)_2$(diamine)]-d-cinchonine system, but the Λ -enantiomer is enriched for the [$Co^{II}(acac)_2$(diamine)]-l-cinchonidine system. The complexes having no N-H protons such as [$Co^{II}(acac)_2$(bpy)] and [$Co^{II}(acac)_2$(phen)] were Pfeiffer-inactive in alcoholic solvents, where bpy = 2,2'-bipyridine and phen = 1,10-phenanthroline. This was interpreted to mean that the hydrogen bonding between N-H proton of diamine ligand and C-9 hydroxyl group of alkalid plays an important role in the chiral discrimination. And the rate of antiracemization ($k_{anti}$) by the Pfeiffer effect was also measured for the [$Co^{II}(acac)_2$(diamine)]-d-cinchonine system in alcoholic solvents. It was found that the rate of appearance of the Pfeiffer effect was enhanced as the concentration of added chloroform is increased.

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References

  1. Ber. v.64 P. Pfeiffer;K. Quehl
  2. Ber. v.65 P. Pfeiffer;K. Quehl
  3. Coordination Chemistry S. Kirschner;N. Ahmad;S. Kirschner(ed.)
  4. Bull. Chem. Soc. Jpn. v.58 K. Miyoshi;Y. Sakamoto;Y. Toda;H. Yoneda
  5. Chem. Lett. Y. Wada;K. Miyoshi;H. Yoneda
  6. Chem. Lett. K. Miyoshi;Y. Matsumoto;H. Yoneda
  7. Coord. Chem. Rey. v.43 S. Kirschner;N. Ahmad;K. R. Magnell
  8. J. Am. Chem. Soc. v.90 S. Kirschner;N. Ahmad
  9. Inorg. Chim. Acta v.12 P. E. Schipper
  10. Polyhedron v.1 F .Yan;H. G. Brittain
  11. Inorg. Chim. Acta v.14 N. Ahmad;S. Kirschner
  12. Inorg. Chem. v.20 K. Miyoshi;Y. Matsumoto;H. Yoneda
  13. Pure. & Appl. Chem. v.51 S. Kirschner;N. Ahmad;C. Munir;R. J. Pollock
  14. Inorg. Chim. Acta v.15 J. D. Gunter;A. F. Schreiner
  15. Inorg. Synth. v.11
  16. Tetrahedron v.23 G. G. Lyle;L. K. Keeper
  17. Inorg. Chem. v.9 L. J. Boucher
  18. Bull. Chem. Soc. Jpn. v.52 M. Nakano;S. Kawaguchi;H. Kawaguchi
  19. Inorg. Chem. v.18 K. Miyoshi;Y. Kuroda;J. Takeda;H. Yoneda;I. Takagi
  20. Inorg. Chim. Acta v.39 Y. Kuroda;K. Miyoshi;H. Yoneda
  21. The Chemist's Companion, A Handbook of Practical Data, Techniques, and References A. J. Gordon;R. A. Ford
  22. J. Phys. Chem. v.80 K. Miyoshi;Y. Kuroda;H. Yoneda
  23. Inorg. Chem. v.24 K. Miyoshi;N. Dohmoto;H. Yoneda
  24. J., Inorg. Chem. v.5 T. S. Davis;J. P. Fackler
  25. J. Phys. Chem. v.79 K. Miyoshi;K. Sakata;H. Yoneda
  26. Bull. Chem. Soc. Jpn. v.49 K. Miyoshi;Y. Kuroda;Y. Isoe;H. Yoneda
  27. J. Phys. Chem. v.80 K. Miyoshi;K. Sakata;H. Yoneda

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