Bulletin of the Korean Chemical Society

Korean Chemical Society (대한화학회)
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Electron Microscopy and Magnetic Properties of Tetra(n-butyl) ammonium salts of $[Ni(dmbit)_2]^1- (dmbit^2-:C_7H_2S_5$:2-thiobenzo[d]-1,3-dithiole-5,6-dithiolate;$dmbbip^{2-}:C_{12}H_{16}S_4$:1,2-bis(isopropylthio)benzene-4,5-dithiolat

  • Published : 19960100
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Abstract

Monoanionic nickel(Ⅲ) complexes, [Ni(dmbit)2]1- and [Ni(dmbbip)2]1- where dmbit2- and dmbbip2- denote 2-thiobenzo[d]-1,3-dithiole-5,6-dithiolate and 1,2-bis(isopropylthio)benzen-4,5-dithiolate, respectively, have been synthesized by the iodine oxidation of dianionic complexes. In the scanning electron microscopic(SEM) images, these complexes show the well-grown two-dimensional layered structures which are clearly comparable to the dianionic ones with three-dimensional structures. Magnetic susceptibilities of nickel(Ⅲ)complexes are fitted well with the two-dimensional Heisenberg antiferromagnet model of S=1/2 system resulting in the spin-exchange parameters (|J|/k) of 11.4 K and 0.45 K, respectively. The weaker magnetic interaction in [Ni(dmbbip)2]1- is resulted from the bulky isopropyl groups on the periphery of dmbbip ligand. EPR measurements for [Ni(dmbit)2]1- give the signal with axial symmetry and the anisotropic g-values for low-spin nickel(Ⅲ) (g//=2.158, g =2.030,gav=2.074 at 300 K; g//=2.162, g =2.038, gav=2.080 at 77 K). It is therefore concluded that nickel(Ⅱ) is oxidized to nickel(Ⅲ), rather than dmbit2- and dmbbip2- ligands are, by the iodine oxidation. The paramagnetic Ni(Ⅲ) would be located in the axial symmetry(D4h) with the electronic configuration of (dxz2dyz2dz22dxy1dx2-y20).

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References

  1. Physica v.B143 Brossard, L.;Ribault, M.;Valade, L.;Cassoux, P.
  2. J. Am. Chem. Soc. v.108 Bousseau, M.;Valade, L.;Lagros, J.-P.;Cassoux, P.;Garbauskas, M.;Interrante, L. V.
  3. Organic Superconductors Ishiguro, T.;Yamaji, K.
  4. The Physics and Chemistry of Organic Superconductor Saito, G.;Kagoshima, S.
  5. Organic Superconductors Williams, J. M.;Ferraro, J. R.;Thorn, R. J.;Carlson, K. D.;Geiser, Urs;Wang, H. H.;Kini, A. M.;Whangbo, M.-H.
  6. Chem. Lett. For example, $[(CH_3)_2(C_2H_5)_2N][Pd(dmit)_2]_2$ Kobayashi, H.;Bun, K.;Naito, T.;Kato, R.;Kobayashi, A.
  7. Inorg. Chem. v.26 Schultz, A. J.;Wang, H. H.;Soderholm, L. C.;Sifter, T. L.;Williams, J. M.;Bechgaard, K.;Whangbo, M.-H.
  8. Inorg. Chem. v.24 Vance, C. T.;Bereman, R. D.;Bordner, J.;Hatfield, W. E.;Helms, J. H.
  9. Bull. Chem. Soc. Jpn. v.61 Kim, H.;Kobayashi, A.;Sasaki, Y.;Kato, R.;Kobayashi, H.;Nakamura, T.;Nogami, T.;Shirota, Y.
  10. Inorg. Chim. Acta v.204 Bereman, R. D.;Lu, H.
  11. Chimia v.40 Wolf, P.;M Ilen, K.;Przybylski, M.
  12. J. Org. Chem. v.52 Larsen, J.;Bechgaard, K.
  13. Synth. Metals v.B523 Le Coustumer, G.;Bennasser, N.;Mollier, Y.
  14. Inorg. Chim. Acta v.216 Noh, D.-Y.;Mizuno, M.;Choy, J.-H.
  15. Synth. Metals v.55-57 Noh, D.-Y.;Mizuno, M.;Choy, J.-H.
  16. Synth. Metals v.70 Noh, D.-Y.;Choy, J.-H.
  17. Synthesis Testaferri, L.;Tiecco, M.;Tingoli, M.;Chianelli, D.;Montanucci, M.
  18. Advanced Inorganic Chemistry(4th. ed.) Cotton, F. A.;Wilkinson, G.
  19. Mol. Phys. v.1 Rushbrooke, G. S.;Wood, P. J.
  20. J. Phys. Chem. Solid v.31 Line, M. E.
  21. Inorg. Chem. v.26 Sandman, D. J.;Allen, G. W.;Acampora, L. A.;Stark, J. C.;Jansen, S.;Jones, M. T.;Ashwell, G. J.;Foxman, B. M.
  22. J. Am. Chem. Soc. v.88 Maki, A. H.;Edelstein, N.;Davison, A.;Holm, R. H.
  23. Inorg. Chim. Acta v.147 Sakamoto, Y.;Matsubayashi, G.;Tanaka, T.
  24. J. Chem. Educ. v.46 Krishnamurthy, R.;Schaap, W. B.
  25. Adv. Inorg. Chem. Radiochem. v.13 Goodman, B. A.;Raynor, J. B.

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