Protonation and alkylation of the thiolato donors in [Fe(CO)("N HS4")]: Effects on the structural, electronic, and redox properties of metal-sulfur complexes

Dieter Sellmann, Thomas Becker, Falk Knoch

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Abstract

The effects of protonation and alkylation at the sulfur donors in metalsulfur complexes have been investigated by taking the specific example of [Fe-(CO)("NHS4")] (1). The 18 valence electron (VE) complex 1 consists of a low-spin FeII center and the dithioether thiolato amine ligand "NHS4"2- (= 2,2′-bis(2-mercaptophenylthio)diethylamine(2 -)). Complex 1 can be reversibly protonated at the two thiolato donors; this results in an increase in v(CO) of 35 cm-1 after the first protonation and 45 cm-1 after the second. Alkylation of 1 with one or two equivalents of the oxonium salts R3OBF4 (R = Me, Et) yields [Fe(CO)( "NHS4"-R)]BF4 (R = Me: 4, Et: 5), [Fe-(CO)("NHS4"-R2)](BF 4)2 (R = Me: 6, Et: 7), and the methyl ethyl derivative [Fe-(CO)("NHS4"-Me-Et)](BF4) 2 (8). An in crease in v(CO) of 31-32 cm-1 is observed for each successive alkylation. Due to the C1 symmetry of 1, complexes 4, 5, and 8 are formed as 1:1 mixtures of two diastereomers, whereas 6 and 7 are present as only one stereoisomer. Acidic hydrolysis of 4, 6, and 7 liberates the corresponding ligands ["NH2S4"-R n](BF4)n (9-11; n = 1,2), which were isolated as the ammonium tetrafluoroborate salts. The molecular structure of 8a has been elucidated by X-ray structure analysis. This shows that the Fe-N and Fe-S bonds in the [FeNS4] core do not change after alkylation of the thiolato donors despite the Δν(CO) of ca. 60 cm-1 between 1 and 8, which indicates a distinct decrease in electron density at the Fe center. This decrease can be rationalized by increased π-acceptor character of the sulfur donors upon protonation or alkylation. The change in electron density at the [Fe-("NS4")] core is further corroborated by cyclic voltammetry. For each successive protonation or alkylation of 1, the redox couple potentials shift by 600-800 mV. As a consequence, the diethyl derivative, for example, gives rise to reduced species (19 or 20 VE) which are not observed for 1. The implications of these results for the reduction of N2 within the coordination sphere of the FeMo cofactor of nitrogenases are discussed.

Original languageEnglish
Pages (from-to)1092-1098
Number of pages7
JournalChemistry - A European Journal
Volume2
Issue number9
DOIs
StatePublished - 1996
Externally publishedYes

Keywords

  • Cyclic voltammetry
  • Iron complexes
  • Redox systems
  • Structure elucidation
  • Sulfur ligands

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