The Malaysian Journal of Analytical Sciences Vol 10 No 1 (2006): 93 – 98

 

 

 

 

NEW MIXED LIGANDS COMPLEXES OF SAMARIUM(III)  WITH DITHIOCARBAMATES AND 1,10-PHENANTHROLINE

 

Indah Raya, Ibrahim Baba & Bohari M. Yamin

 

School of Chemical Sciences & Food Technology,

 Faculty of Science & Technology, Universiti Kebangsaan Malaysia

43600 Bangi, Selangor

 

Abstract

A new series of samarium(III) complexes with mixed ligands,  dithiocarbamate and 1,10-phenanthroline were successfully synthesized using “in situ” method. Microelemental analysis data of the complexes are in agreement with the general formula, Sm[S2CNR’R”]3phen (R’ = methyl, ethyl; R” = butyl, hepthyl, isopropyl, isobutyl, benzyl and cyclohexyl; phen = 1,10-phenanthroline). Infrared spectra of the complexes showed that the thioureide v(C-N)   band is in the regions 1450 - 1500 cm^-1. The unsplitting band of v(C-S)in the region 930 —  1000 cm-1   indicates the bidentate nature of the chelated dithiocarbamato ligands. The ¹³C NMR chemical shift of the carbon atom of the N-CS₂  group appeared in the range of  202 - 220 ppm. The crystal structure of tris(N,N-ethylbenzyldithiocarbamato)(1.10-phenanthroline)samarium(III) supports the elemental and spectroscopic data in which three dithiocarbamato and one phen ligands chelated to the central Zn atom in bidentate manner in a distorted dodecahedron  environment.

 

Keywords: Samarium; dithiocarbamate; crystal structure.

 

References

1.     Thorn, G.D. & Ludwig, R.A. 1962. The dithiocarbamates and related compounds. New York: Elsevier Pub. Co.

2.     Coucouvanis,D.&  Fackler,  J.P.Jr.  1976.  Squre-planar  Sulphur  Complexes.Inorganic  Chem.  6: 2047-2053.

3.     Hursthouse, M. B., Malik, M. A., Motervalli, M. & O’Brien, P. 1992. The crystal and molecular structure of N,N-diethyldiselenocarbamatocadmium(II): Cadmium and zinc diethyldiselenocarbamates as precursors for selenides. Polyhedron 11: 45-48.

4.     Siddal, T. H.   & Steward, W. E. 1970. Preparation and studies of magnetic and spectroscopic properties of alkyl ammonium lanthanide tetrakis (N,N-dialkyldithiocarbamates). J. Inorg Nuclear Chem. 32: 1147-1158.

5.     Zhu, H., Tang, N., Gan, X., Wang, A. & Tan, M. 1993. Synthesis and characterization of light lanthanide piperidinocarbodithioate complexes. Polyhedron 12: 945-991.

6.     Tang,  N.,  Zhu,  H.,  Tan,  M.,  Gan,  X.  &  Wang,  A.  1991.  Synthesis  and  Characterisation  of dimethylammonium lanthanide (monomethyldithiocarbamate). Polyhedron 16: 1643-1650.

7.     Su, C., Tan, M., Tang, N., Gan, X. & Liu, W.   1997. Synthesis, structure and spectroscopic properties of dimethylammonium lanthanide tetrakis(N, N-dimethyldithiocarbamate). Polyhedron 16: 1643-1650.

8.     Sheldrick, G. M. 1997. Program for Crystal Structure Analysis, University of Gottingen, Germany.

9.     Sheldrick, G.M. 1997. SHELTXL V 5.1,  Bruker AXS, Inc., Madison, WI, USA.

10.  Haas, W. & Schwarz, T. 1963. NH4  diethanol dithiocarbamate a reagent for the spectrophotometric determination of Mo and U, Microchem. Ichonal. Acta 58: 253-259.

11.  Brown,  D.A.,  Glass,  W.K  &  Burke,  M.A.1976.  The  general  use  of  IR  spectral  criteria  in disscussions of the bonding and structure of  metal dithiocarbamate. Spectrochem. Acta 32A:137-143.

12.  Nomura,  R.,  Takabe,  A.  &  Matsuda,  H.  1987.  Facile synthesis of antimony dithiocarbamate complexes. Polyhedron 6: 411-416.

13.  Venkatachalam, V., Ramalingam, K., Casellato, U. & Graziani, R. 1997. Structural and electronic effect of alkyl substituents on the main group dithiocarbamato complexes: crystals and molecular structures of tris(N,N’-iminodiethanoldithiocarbamato)metal(III) complexes (M = As, Sb and Bi) and cyclic voltammetric studies on substituted dithiocarbamates. Polyhedron 16(7): 1211 -  1221.

14.  Awang,   N.,   Baba,   I.   &   Yamin,   B.   M.   2004.   Synthesis   and   characterisation   of   sec- butylpropyldithiocarbamate   compounds:   Crystal   structures   of   Zn(s-BuPrDtc)₂       and   Cd(s- BuPrDtc)₂. AJSTD 21, 4, 309-318.