Transition metal dithiocarbamate complexes

Transition metal dithiocarbamate complexes are coordination complexes containing one or more dithiocarbamate ligand, which are typically abbreviated R2dtc-. Many complexes are known. Several homoleptic derivatives have the formula M(R2dtc)n where n = 2 and 3.[1]

Tris(dithiocarbamate) complexes have idealized D3 symmetry.

Ligand characteristics

Main resonance structures of a dithiocarbamate anion.

Dithiocarbamates are anions. Because of the pi-donor properties of the amino substituent, the two sulfur centers show enhanced basicity. This situation is represented by the zwitterionic resonance structure that depicts a positive charge on N and negative charges on both sulfurs. This N to C pi-bonding results in partial double bond character. Consequently, barriers to rotational about this bond are elevated. Another consequence of their high basicity, dithiocarbamates often stabilize complexes in uncharacteristically high oxidation state (e.g., Fe(IV), Co(IV), Ni(III), Cu(III)).

Dithiocarbamate salts are easily synthesized. Many primary and secondary amines react with carbon disulfide and sodium hydroxide to form dithiocarbamate salts:[2]

R2NH + CS2 + NaOH → R2NCS2Na+ + H2O

A wide variety of secondary amines give the corresponding dtc ligand. Popular amines include dimethylamine (Me2NH), diethylamine (Et2NH), and pyrrolidine ((CH2)4NH).

Related ligands

Dithiocarbamates are classified as derivatives of dithiocarbamic acid. Their properties as ligands resemble the conjugate bases of many related "1,1-dithioacids":

Synthetic methods

Commonly, metal dithiocarbamates are prepared by salt metathesis reactions using alkali metal dithiocarbamates:

NiCl2 + 2 NaS2CNMe2 → Ni(S2CNMe2)2 + 2 NaCl

A complementary method entails oxidative addition of thiuram disulfides to low-valent metal complexes:

Mo(CO)6 + 2 [S2CNMe2]2 → Mo(S2CNMe2)4 + 6 CO

Metal amido complexes, such as tetrakis(dimethylamido)titanium, react with carbon disulfide:

Ti(NMe2)4 + 4 CS2 → Ti(S2CNMe2)4

Homoleptic complexes

Structure of Ti(S2CNEt2)4.
Bis complexes
  • nickel bis(dimethyldithiocarbamate), palladium bis(dimethyldithiocarbamate), platinum bis(dimethyldithiocarbamate),[3] all square-planar complexes
  • copper bis(diethyldithiocarbamate), a square-planar complex[4]
Tris complexes
  • vanadium tris(diethyldithiocarbamate), an octahedral complex[5]
  • chromium tris(diethylditiocarbamate), an octahedral complex[6]
  • manganese tris(dimthylthtiocarbamate), an octahedral complex[7]
  • iron tris(diethyldithiocarbamate), ruthenium tris(diethyldithiocarbamate), osmium tris(diethyldithiocarbamate), all octahedral complexes
  • cobalt tris(diethyldithiocarbamate), rhodium tris(diethyldithiocarbamate), iridium tris(diethyldithiocarbamate), all octahedral complexes
Tetrakis complexes
  • titanium tetrakis(dimethyldithiocarbamate)[8]
  • molybdenum tetrakis(diethyldithiocarbamate)
Dimetallic complexes
  • zinc bis(dimethyldithiocarbamate), a pair of square-planar subunits
  • dicobalt pentakis(diethyldithiocarbamate) cation, with a pair of octahedral Co(III) centers[9]
  • diruthenium pentakis(diethyldithiocarbamate) cation, with a pair of octahedral Ru(III) centers, two isomers
Isomers of [Ru2(dtc)5]+.[10]

Applications

Dtc complexes find several applications:

References

  1. Coucouvanis, Dimitri (1979). "The chemistry of the dithioacid and 1,1-dithiolate complexes, 1968–1977". Prog. Inorg. Chem. 26: 301–469. doi:10.1002/9780470166277.ch5.
  2. Rüdiger Schubart (2000). "Dithiocarbamic Acid and Derivatives". Ullmann's Encyclopedia of Industrial Chemistry. Weinheim: Wiley-VCH. doi:10.1002/14356007.a09_001.
  3. Poirier, Stéphanie; Lynn, Hudson; Reber, Christian; Tailleur, Elodie; Marchivie, Mathieu; Guionneau, Philippe; Probert, Michael R. (2018). "Variation of M···H–C Interactions in Square-Planar Complexes of Nickel(II), Palladium(II), and Platinum(II) Probed by Luminescence Spectroscopy and X-ray Diffraction at Variable Pressure". Inorganic Chemistry. 57 (13): 7713–7723. doi:10.1021/acs.inorgchem.8b00724. PMID 29893549.
  4. Wang, Chen; Niu, Jiao; Li, Jun; Ma, Xiaoxun (2017). "Synthesis, Structures and Properties of Three Copper Complexes with Dibutyldithiocarbamate Ligand". Journal of Molecular Structure. 1135: 75–81. Bibcode:2017JMoSt1135...75W. doi:10.1016/j.molstruc.2017.01.021.
  5. Zhu, H.-P.; Deng, Y.-H.; Huang, X.-Y.; Chen, C.-N.; Liu, Q.-T. (1997). "Tris(N,N-diethyldithiocarbamato-S,S')vanadium(III)". Acta Crystallographica Section C Crystal Structure Communications. 53 (6): 692–693. doi:10.1107/S0108270196015065.
  6. Raston, CL; White, AH (1977). "Crystal Structure of Tris(N,N-diethyldithiocarbamato)chromium(III)". Australian Journal of Chemistry. 30 (9): 2091. doi:10.1071/CH9772091.
  7. Elliot, R. L.; West, B. O.; Snow, M. R.; Tiekink, E. R. T. (1986). "A Second Polymorph of Tris(N,N-diethyldithiocarbamato)manganese(III)". Acta Crystallographica Section C Crystal Structure Communications. 42 (6): 763–764. doi:10.1107/S0108270186094635.
  8. Colapietro, M.; Vaciago, A.; Bradley, D. C.; Hursthouse, M. B.; Rendall, I. F. (1972). "Structural studies of metal dithiocarbamates. Part VI. The crystal and molecular structure of tetrakis(NN-diethyldithiocarbamato)titanium(IV)". Journal of the Chemical Society, Dalton Transactions (10): 1052. doi:10.1039/DT9720001052.
  9. Hendrickson, Alan R.; Martin, Raymond L.; Taylor, Donald (1975). "Synthesis and Properties of Dimeric Cobalt(III) Dithiocarbamate Complexes [Co2(R2dtc)5]+: X-Ray Structural Analysis of Pentakis(diethyldithiocarbamato)dicobalt(III) Tetrafluoroborate". Journal of the Chemical Society, Dalton Transactions (21): 2182. doi:10.1039/dt9750002182.
  10. Nagy, Eszter M.; Pettenuzzo, Andrea; Boscutti, Giulia; Marchiò, Luciano; Dalla Via, Lisa; Fregona, Dolores (2012). "Ruthenium(II/III)-Based Compounds with Encouraging Antiproliferative Activity against Non-small-Cell Lung Cancer". Chemistry - A European Journal. 18 (45): 14464–14472. doi:10.1002/chem.201202171. PMID 23012112.
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