Thermochemistry of Sulfur Atom Transfer. Enthalpies of Reaction of Phosphines with Sulfur, Selenium, and Tellurium, and of Desulfurization of Triphenylarsenic Sulfide, Triphenylantimony Sulfide, and Benzyl Trisulfide

Capps, Kenneth B.; Wixmerten, Bodo; Bauer, and Andreas; Hoff, Carl D.

doi:10.1021/ic9715862

Cited by 56 publications

(125 citation statements)

References 18 publications

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“…Consideration of the literature indicates that for many systems involving bonds to sulfur and selenium, e.g. E–H,6d E–C6d, E–P,47 and E–transition metal48,49,50 (E = S, Se), the bond to sulfur is generally the stronger; however, there are situations in which the reverse is observed. For example, the opposite trend has been observed for coordination of thio- and selenoethers to transition metals 51.…”

Section: Resultsmentioning

confidence: 99%

On the Chalcogenophilicity of Mercury: Evidence for a Strong Hg−Se Bond in [Tm^{Bu^t}]HgSePh and Its Relevance to the Toxicity of Mercury

2009

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One of the reasons for the toxic effects of mercury has been attributed to its influence on the biochemical roles of selenium. For this reason, it is important to understand details pertaining to the nature of Hg-Se interactions and this has been achieved by comparison of a series of mercury chalcogenolate complexes that are supported by tris (2-mercapto-1-t-butyl-imidazolyl) ]CdEPh, the Hg-EPh bonds are actually shorter than the corresponding Cd-EPh bonds, an observation which indicates that the apparent covalent radii of the metals in these compounds are dependent on the nature of the bonds. Furthermore, the difference in Hg-EPh and Cd-EPh bond lengths is a function of the chalcogen and increases in the sequence S (0.010 Å) < Se (0.035 Å) < Te (0.057 Å). This trend indicates that the chalcogenophilicity of mercury increases in the sequence S < Se < Te. Thus, while mercury is often described as being thiophilic, it is evident that it actually has a greater selenophilicity, a notion that is supported by the observation of facile selenolate transfer from zinc to mercury upon treatment of [Tm Bu t ]HgSCH 2 C(O)N(H)Ph with [Tm Bu t ]ZnSePh. The significant selenophilicity of mercury is in accord with the aforementioned proposal that one reason for the toxicity of mercury is associated with it reducing the bioavailability of selenium.

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Section: Resultsmentioning

confidence: 99%

On the Chalcogenophilicity of Mercury: Evidence for a Strong Hg−Se Bond in [Tm^{Bu^t}]HgSePh and Its Relevance to the Toxicity of Mercury

2009

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“…Several studies have shown that triphenyl antimony sulfide (Ph 3 Sb=S) is useful for sulfur transfer reactions,9 including for the preparation of transition metal sulfide complexes 10,11. The utility of Ph 3 SbS likely stems from the thermodynamic instability of the Sb-S bond, which is weaker than the related bonds in R 3 E=S (E = P or As) congeners 12. Herein, we report the results of an investigation of the reactivity of Ph 3 Sb=S with selected Cu(I) complexes of N,N,N’,N’ -tetramethyl-2 R ,3 R -cyclohexanediamine (TMCHD) and 1,4,7-trialkyltriazacyclononanes (R 3 tacn; R = Me, Et, iPr).…”

Section: Introductionmentioning

confidence: 99%

Reactions of Ph₃Sb═S with Copper(I) Complexes Supported by N-Donor Ligands: Formation of Stable Adducts and S-Transfer Reactivity

2011

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In the exploration of sulfur-delivery reagents useful for synthesizing models of the tetracoppersulfide cluster of nitrous oxide reductase, reactions of Ph 3 Sb=S with Cu(I) complexes of N,N,N', and 1,4,7-trialkyltriazacyclononanes (R 3 tacn; R = Me, Et, iPr) were studied. Treatment of [(R 3 tacn)Cu(NCCH 3 )]SbF 6 (R = Me, Et, or iPr) with one equivalent of S=SbPh 3 in CH 2 Cl 2 yielded adducts [(R 3 tacn)Cu(S=SbPh 3 )]SbF 6 (1-3), which were fully characterized, including by X-ray crystallography. The adducts slowly decayed to [(R 3 tacn) 2 Cu 2 (µ-η 2 : η 2 -S 2 )] 2+ species (4-6) and SbPh 3 , or more quickly in the presence of additional [(R 3 tacn)Cu(NCCH 3 )]SbF 6 to 4-6 and [(R 3 tacn)Cu(SbPh 3 )]SbF 6 (7-9). The results of mechanistic studies of the latter process were consistent with rapid intermolecular exchange of S=SbPh 3 between 1-3 and added [(R 3 tacn)Cu(NCCH 3 )]SbF 6 , followed by conversion to product via a dicopper intermediate formed in a rapid pre-equilibrium step. Key evidence supporting this step came from the observation of saturation behavior in a plot of the initial rate of loss of 1 versus the initial concentration of [(Me 3 tacn)Cu(NCCH 3 )]SbF 6 . Also, treatment of [(TMCHD)Cu(CH 3 CN)]PF 6 with S=SbPh 3 led to the known tricopper cluster [(TMCHD) 3 Cu 3 (µ 3 -S) 2 ](PF 6 ) 3 in good yield (79%), a synthetic procedure superior to that previously reported (Brown, E. C.; York, J. T.; Antholine, W. E.; Ruiz, E.; Alvarez, S.; Tolman, W. B.

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“…52 ) The reported G3//B3LYP value is 85.1 kcal/mol, 51 which is not significantly different than the value reported here, but both vary from the experimental estimate of 94 kcal/mol. 15 It Ph3AsdS + Me3As f Ph3As + Me3AsdS 1.2 1.0 -1.1 2 a All energy calculations at the MP2 geometry using 6-31+G(d) for S, 6-31G(d) for As and P, and 6-31G for C and H with ZPE included. All values are calculated for 0 K. All energies calculated with G3Large for As, P, and S and 6-31(d) for C and H. b Derived from ref 15.…”

Section: Discussionmentioning

confidence: 99%

“…15 It Ph3AsdS + Me3As f Ph3As + Me3AsdS 1.2 1.0 -1.1 2 a All energy calculations at the MP2 geometry using 6-31+G(d) for S, 6-31G(d) for As and P, and 6-31G for C and H with ZPE included. All values are calculated for 0 K. All energies calculated with G3Large for As, P, and S and 6-31(d) for C and H. b Derived from ref 15. c Based on the square root of the sum of the square of reported errors.…”

Section: Discussionmentioning

confidence: 99%

Computational Study of Sulfur Atom-Transfer Reactions from Thiiranes to ER₃(E = As, P; R = CH₃, Ph)

2005

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Computational estimates have been made for the PS and AsS bond strengths in triphenylphosphine sulfide and triphenylarsine sulfide, on the basis of G3 calculations for the methyl analogues and isodesmic-exchange reactions. Also, with the performance of the G3 method level for related compounds taken into consideration, the best estimates are 82 and 68 kcal/mol, respectively. While the value for triphenylarsine sulfide is within 2 kcal/mol of the single experimental estimate, that for triphenylphosphine sulfide is lower by 6 kcal/mol. Computational estimates have been made for the PdS and AsdS bond strengths in triphenylphosphine sulfide and triphenylarsine sulfide, on the basis of G3 calculations for the methyl analogues and isodesmic-exchange reactions. Also, with the performance of the G3 method level for related compounds taken into consideration, the best estimates are 82 and 68 kcal/mol, respectively. While the value for triphenylarsine sulfide is within 2 kcal/mol of the single experimental estimate, that for triphenylphosphine sulfide is lower by 6 kcal/mol. (Capps, K. B.; Wixmerten, B.; Bauer, A.; Hoff, C. D. Inorg. Chem. 1998, 37, 2861−2864.) Despite virtually identical electronegativities of P and As, it is found that there is greater charge separation in the PdS bond. It is found that S atom transfer from thiiranes to arsines is exothermic.

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Thermochemistry of Sulfur Atom Transfer. Enthalpies of Reaction of Phosphines with Sulfur, Selenium, and Tellurium, and of Desulfurization of Triphenylarsenic Sulfide, Triphenylantimony Sulfide, and Benzyl Trisulfide

Cited by 56 publications

References 18 publications

On the Chalcogenophilicity of Mercury: Evidence for a Strong Hg−Se Bond in [Tm^{Bu^t}]HgSePh and Its Relevance to the Toxicity of Mercury

On the Chalcogenophilicity of Mercury: Evidence for a Strong Hg−Se Bond in [Tm^{Bu^t}]HgSePh and Its Relevance to the Toxicity of Mercury

Reactions of Ph₃Sb═S with Copper(I) Complexes Supported by N-Donor Ligands: Formation of Stable Adducts and S-Transfer Reactivity

Computational Study of Sulfur Atom-Transfer Reactions from Thiiranes to ER₃(E = As, P; R = CH₃, Ph)

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Thermochemistry of Sulfur Atom Transfer. Enthalpies of Reaction of Phosphines with Sulfur, Selenium, and Tellurium, and of Desulfurization of Triphenylarsenic Sulfide, Triphenylantimony Sulfide, and Benzyl Trisulfide

Cited by 56 publications

References 18 publications

On the Chalcogenophilicity of Mercury: Evidence for a Strong Hg−Se Bond in [TmBut]HgSePh and Its Relevance to the Toxicity of Mercury

On the Chalcogenophilicity of Mercury: Evidence for a Strong Hg−Se Bond in [TmBut]HgSePh and Its Relevance to the Toxicity of Mercury

Reactions of Ph3Sb═S with Copper(I) Complexes Supported by N-Donor Ligands: Formation of Stable Adducts and S-Transfer Reactivity

Computational Study of Sulfur Atom-Transfer Reactions from Thiiranes to ER3(E = As, P; R = CH3, Ph)

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On the Chalcogenophilicity of Mercury: Evidence for a Strong Hg−Se Bond in [Tm^{Bu^t}]HgSePh and Its Relevance to the Toxicity of Mercury

On the Chalcogenophilicity of Mercury: Evidence for a Strong Hg−Se Bond in [Tm^{Bu^t}]HgSePh and Its Relevance to the Toxicity of Mercury

Reactions of Ph₃Sb═S with Copper(I) Complexes Supported by N-Donor Ligands: Formation of Stable Adducts and S-Transfer Reactivity

Computational Study of Sulfur Atom-Transfer Reactions from Thiiranes to ER₃(E = As, P; R = CH₃, Ph)