Issue 28, 2017

Synthesis and interconversions of reduced, alkali–metal supported iron–sulfur–carbonyl complexes

Abstract

We report the synthesis, interconversions and X-ray structures of a set of [mFe–nS]-type carbonyl clusters (where S = S2−, S22− or RS; m = 2–3; n = 1–2). All of the clusters have been identified and characterized by single crystal X-ray diffraction, IR and 13C NMR. Reduction of the parent neutral dimer [μ2-(SPh)2Fe2(CO)6] (1) with KC8 affords an easily separable ∼1 : 1 mixture of the anionic, dimeric thiolate dimer K[Fe2(SPh)(CO)6(μ-CO)] (2) and the dianionic, sulfido trimer [K(benzo-15-crown-5)2]2[Fe33-S)(CO)9] (3). Oxidation of 2 with diphenyl-disulfide (Ph2S2) cleanly returns the starting material 1. The Ph–S bond in 1 can be cleaved to form sulfide trimer 3. Oxidation of sulfido trimer 3 with [Fc](PF6) in the presence of S8 cleanly affords the all-inorganic persulfide dimer [μ2-(S)2Fe2(CO)6] (4), a thermodynamically stable product. The inverse reactions to form 3 (dianion) from 4 (neutral) were not successful, and other products were obtained. For example, reduction of 4 with KC8 afforded the mixed valence Fe(I)/Fe(II) species [((FeI2S2)(CO)6)2FeII]2− (5), in which the two {Fe2S2(CO)6}2− units serve as bidendate ligands to a Fe(II) center. Another isolated product (THF insoluble portion) was recrystallized in MeCN to afford [K(benzo-15-crown-5)2]2[((Fe2S)(CO)6)2(μ-S)2] (6), in which a persulfide dianion bridges two {2Fe–S} moieties (dimer of dimers). Finally, to close the interconversion loop, we converted the persulfide dimer 4 into the thiolate dimer 1 by reduction with KC8 followed by reaction with the diphenyl iodonium salt [Ph2I](PF6), in modest yield. These reactions underscore the thermodynamic stability of the dimers 1 and 4, as well as the synthetic and crystallization versatility of using the crown/K+ counterion system for obtaining structural information on highly reduced iron–sulfur–carbonyl clusters.

Graphical abstract: Synthesis and interconversions of reduced, alkali–metal supported iron–sulfur–carbonyl complexes

Supplementary files

Article information

Article type
Paper
Submitted
26 Apr 2017
Accepted
22 Jun 2017
First published
04 Jul 2017

Dalton Trans., 2017,46, 9163-9171

Synthesis and interconversions of reduced, alkali–metal supported iron–sulfur–carbonyl complexes

J. P. Shupp, A. R. Rose and M. J. Rose, Dalton Trans., 2017, 46, 9163 DOI: 10.1039/C7DT01506B

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