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Transition metal thioether complex

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Structure of [Ru(NH3)5(SMeEt)]2+.[1]

Transition metal thioether complexes comprise coordination complexes of thioether (R2S) ligands. The inventory is extensive.

Dimethylsulfide complexes

As the simplest thioether, dimethyl sulfide forms complexes that are illustrative of the class.[2] Well characterized derivatives include cis-[TiCl4L2], VCl3L2, NbCl5L, NbCl4L2, Cr(CO)5L, CrCl3L3, RuCl2L4, RuCl3L3, RhCl3L3, cis- and trans-[IrCl4L3]-, cis-MCl2L2 (M = Pd, Pt), [PtCl3L]-, cis- and trans-[PtCl4L2] (L = SMe2). With respect to donor properties, dimethyl sulfide is a soft ligand with donor properties weaker than phosphine ligands.[3]

Stereochemistry

Diastereotopic methylene protons in complexes of diethyl sulfide.

Thioether complexes feature pyramidal sulfur centers. Typical C-S-C angles are near 99° in both free thioethers and their complexes. The C-S distance in dimethylsulfide is 1.81 Å, which is also unaffected in its complexes.[4] The stereochemistry of thioether complexes have been extensively studied.[5] Unsymmetrical thioethers, e.g., SMeEt, are prochiral ligands, and their complexes are chiral. One example is [Ru(NH3)5(SMeEt)]2+. The complex cis-VOCl2(SMeEt)2 exists as meso- and a pair of enantiomers.[6] In complexes of thioethers of the type S(CH2R)2 (R ≠ H), the methylene protons are diastereotopic. Examination of the NMR spectra of such complexes reveal that they undergo inversion at sulfur, without dissociation of the M-S bond.[7]

Thioether as a bridging ligand

Structure of Nb2Cl6(SMe2)3, illustrating a bridging thioether.[8]

Unlike ethers, thioethers occasionally serve as bridging ligands. The complexes Nb2Cl6(SMe2)3 is one such example. It adopts a face-sharing bioctahedral structure with a Nb(III)=Nb(III) bond, spanned by two chloride and one dimethylsulfide ligands. The complex Pt2Me4(μ-SMe2)2 is a source of "PtMe2".[9]

Complexes thiacrown ligands

  • Structure of [Ag(18-ane-S6)]2+. The Ag-S distances are 2.62 Å.
    Structure of [Ag(18-ane-S6)]2+. The Ag-S distances are 2.62 Å.
  • Structure of [Ru(15-ane-S5)Cl]+.[10]
    Structure of [Ru(15-ane-S5)Cl]+.[10]

The tridentate tri-thioether 9-ane-S3 forms extensive families of complexes of the type M(9-ane-S3)L3 and [M(9-ane-S3)2]2+. Examples of Cu(II)-thioether complexes were prepared from 14-ane-S4[11] and 15-ane-S5.[12] The hexadentate ligand 18-ane-6 also forms extensive family of complexes, including unsual examples of Pd(III) and Ag(II).[13] Examples of homoleptic complexes [M(SR2)6]n+ are otherwise rare.

References

  1. ^ Krogh-Jespersen, Karsten; Zhang, Xiaohua; Ding, Yanbo; Westbrook, John D.; Potenza, Joseph A.; Schugar, Harvey J. (1992). "Molecular and Electronic Structures of Pentaammineruthenium(II)-Thioether Complexes. The Nature of Ru(II)-S Back Bonding Elucidated by Structural, Electronic Spectral, and Molecular Orbital Studies". Journal of the American Chemical Society. 114 (11): 4345–4353. doi:10.1021/ja00037a047.
  2. ^ Murray, Stephen G.; Hartley, Frank R. (1981). "Coordination chemistry of thioethers, selenoethers, and telluroethers in transition-metal complexes". Chemical Reviews. 81 (4): 365–414. doi:10.1021/cr00044a003.
  3. ^ Lever, A. B. P. (1990). "Electrochemical Parametrization of Metal Complex Redox Potentials, Using the Ruthenium(III)/Ruthenium(II) Couple to Generate a Ligand Electrochemical Series". Inorganic Chemistry. 29 (6): 1271–1285. doi:10.1021/ic00331a030.
  4. ^ Iijima, T.; Tsuchiy, S.; Kimura, M. (1977). "The Molecular Structure of Dimethyl Sulfide". Bull. Chem. Soc. Jpn. 50: 2564. doi:10.1246/bcsj.50.2564.
  5. ^ Abel, Edward W.; Bhargava, Suresh K.; Orrell, Keith G. (2007). "The Stereodynamics of Metal Complexes of Sulfur-, Selenium-, and Tellurium-Containing Ligands". Progress in Inorganic Chemistry: 1–118. doi:10.1002/9780470166338.ch1.
  6. ^ Matsuura, Masatoshi; Fujihara, Takashi; Nagasawa, Akira (2013). "Cis-Dichloridobis(ethyl methyl sulfide-κS)oxidovanadium(IV)". Acta Crystallographica Section e Structure Reports Online. 69 (4): m209. doi:10.1107/S1600536813006703. PMC 3629486. PMID 23634004.
  7. ^ Turley, Patricia C.; Haake, Paul. (1967). "Proton Magnetic Resonance Epectra of Platinum(II) Complexes. II. Cis- and trans- Bis(dialkyl sulfide)dichloroplatinum(II) Complexes. Mechanism of Inversion at Sulfur and Vicinal Platinum-Proton Couplings". Journal of the American Chemical Society. 89 (18): 4617–4621. doi:10.1021/ja00994a009.
  8. ^ Kakeya, Masaki; Fujihara, Takashi; Nagasawa, Akira (2006). "Di-μ-chloro-μ-(dimethyl sulfide)-bis[dichloro(dimethyl sulfide)niobium(III)]". Acta Crystallographica Section e Structure Reports Online. 62 (3): m553 – m554. doi:10.1107/S1600536806005149.
  9. ^ Hill, Geoffrey S.; Irwin, Michael J.; Levy, Christopher J.; Rendina, Louis M.; Puddephatt, Richard J. (1998). "Platinum(II) Complexes of Dimethyl Sulfide". Inorganic Syntheses. 32: 149–153. doi:10.1002/9780470132630.ch25. ISBN 9780470132630.
  10. ^ Janzen, Daron E.; Vanderveer, Donald G.; Mehne, Larry F.; Grant, Gregory J. (2010). "Ruthenium(II) Thiacrown Complexes: Synthetic, Spectroscopic, Electrochemical, DFT, and single crystal X-ray Structural Studies of [Ru([15]aneS5)Cl](PF6)". Inorganica Chimica Acta. 364: 55–60. doi:10.1016/j.ica.2010.08.021.
  11. ^ Pett, Virginia B.; Diaddario, Leonard L.; Dockal, Edward R.; Corfield, Peter W.; Ceccarelli, Christopher; Glick, Milton D.; Ochrymowycz, L. A.; Rorabacher, D. B. (1983). "Ring Size Effects on the structure of macrocyclic ligand complexes: Copper(II) complexes with 12-16-membered cyclic tetrathia ethers". Inorganic Chemistry. 22 (24): 3661–3670. doi:10.1021/ic00166a033.
  12. ^ Janzen, Daron E.; Vanderveer, Donald G.; Mehne, Larry F.; Grant, Gregory J. (2010). "Ruthenium(II) thiacrown complexes: Synthetic, spectroscopic, electrochemical, DFT, and single crystal X-ray structural studies of [Ru([15]aneS5)Cl](PF6)". Inorganica Chimica Acta. 364: 55–60. doi:10.1016/j.ica.2010.08.021.
  13. ^ Shaw, Jennifer L.; Wolowska, Joanna; Collison, David; Howard, Judith A. K.; McInnes, Eric J. L.; McMaster, Jonathan; Blake, Alexander J.; Wilson, Claire; Schröder, Martin (2006). "Redox Non-innocence of Thioether Macrocycles: Elucidation of the Electronic Structures of Mononuclear Complexes of Gold(II) and Silver(II)". Journal of the American Chemical Society. 128 (42): 13827–13839. doi:10.1021/ja0636439. PMID 17044711.
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