Activation of Ligand Reactivity:  Thiolate C−S and Dithiophosphate Ester C−O Heterolyses within a Dimolybdenum(V) System

Koffi-Sokpa, E. I.; Calfee, D. T.; Allred, B. R. T.; Davis, Joclyn; Haub, Elaine K.; Rich, A. K.; Porter, Richard A.; Mashuta, Mark S.; Richardson, John F.; Noble, Mark E.

doi:10.1021/ic981303l

Cited by 12 publications

(11 citation statements)

References 45 publications

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“…There are only a few precedents for this O−C activation in Ni(II) and Mo(V) complexes, and its relevance in several fields has been recently emphasized, especially in connection with the enzymatic alkyl transfer from and to phosphate esters. , It has been generally proposed that the alkyl group is transferred to the leaving dithiophosphate group to afford neutral O,O ‘ , S -triethyl dithiophosphate: EtSP(S)(OEt) 2 .…”

Section: Resultsmentioning

confidence: 99%

Alkyl Transfer Reactivity in the First Octahedral Isocyanide Complex of Nickel(II)

Boillos

Miguel

2004

Organometallics

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[Ni{S2P(OEt)2}2] (1) reacts with 2 equiv of CNXyl (Xyl = 2,6-dimethylphenyl) to afford [Ni{S2P(OEt)2}2(CNXyl)2] (2), which, as confirmed by X-ray crystallography, is the first octahedral isocyanide complex of Ni(II). Reaction of 2 with PCy3 (2 equiv) produces square-planar [Ni{S2P(O)(OEt)}(PCy3)(CNXyl)] (3). When 2 is reacted with only 1 equiv of PCy3, the final product is the square-planar complex [Ni{S2P(O)(OEt)}(CNXyl)2] (4), containing two isocyanide ligands. Compound 4 reacts with 2-fold excess PCy3 to give 3 via isocyanide displacement. Both 3 and 4 contain one ethyldithiophosphate ligand, which is produced by the transfer of one ethyl group from a coordinated diethyl dithiophosphate of complex 2 to the leaving diethyl dithiophosphate ligand. Experimental evidence indicates that the phosphine plays a significant role in the alkyl transfer. Moreover, reaction of 1 with 2 equiv of N - p-tolyl-2-iminopyridine affords octahedral [Ni{S2P(OEt)2}{2-pyCHNC6H4-Me-4}2][S2P(OEt)2] (5), in which both free and coordinated diethyl dithiophosphate coexist without any transfer of alkyl.

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Section: Resultsmentioning

confidence: 99%

Alkyl Transfer Reactivity in the First Octahedral Isocyanide Complex of Nickel(II)

Boillos

Miguel

2004

Organometallics

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“…These secondary reactions parallel those from prior studies, which showed that bis (thiolate-bridged) cations of general formula R 0 S{Mo 2 }-SR 0+ were subject to nucleophilic attack via two pathways, as illustrated by a and b below. 36 In path a, the nucleophile attacked either of the bridge thiolates at the R-carbon, cleaving the C-S bond to produce a neutral sulfide product R 0 S{Mo 2 }S, 2; this was a reversible equilibrium process. In path b, the nucleophile attacked either dithiophosphate ligand at either of its ethyl groups, cleaving a C-O bond; this was an irreversible de-esterification which gave neutral [Mo 2 (NTo) 2 (S 2 P(OEt) 2 )(S 2 PO(OEt))(μ-O 2 CMe)(μ-SR 0 ) 2 ].…”

Section: Resultsmentioning

confidence: 99%

“…The NMR spectra also revealed conformational isomers in solution associated with facile inversion at the pyramidal sulfur bridges; these invertomers are common to BnS{Mo 2 }SO, 1, 17 to previously reported R 0 S-{Mo 2 }SR 0+ cations, 36 and to other prior compounds. The sulfur substituent positions are labeled distal (d) or proximal (p) relative to the tolylimido rings as a reference point.…”

Section: Resultsmentioning

confidence: 99%

Alkylation of a Dimolybdenum SO Bridge, Subsequent Reactions, and Characterization of the Thioperoxide Bridge

et al. 2009

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The SO bridge of the complex, [Mo(2)(NTo)(2)(S(2)P(OEt)(2))(2)(mu-O(2)CMe)(mu-SBn)(mu-SO)], 1, displayed nucleophilicity at O, giving alkylation products [Mo(2)(NTo)(2)(S(2)P(OEt)(2))(2)(mu-O(2)CMe)(mu-SBn)(mu-SOR)](+), 4(+), which contained the thioperoxide bridge. These cations were then subject to nucleophilic attack by two pathways. Debenzylation of the bridge thiolate in 4(+) afforded neutral [Mo(2)(NTo)(2)(S(2)P(OEt)(2))(2)(mu-O(2)CMe)(mu-S)(mu-SOR)], 5; de-esterification of a dithiophosphate ligand in 4(+) gave [Mo(2)(NTo)(2)(S(2)P(O)(OEt))(S(2)P(OEt)(2))(mu-O(2)CMe)(mu-SBn)(mu-SO)], 6, which contained a monoester, dithiophosphate ligand. Complex 1 gave a slow and clean reaction in the crystalline state, further demonstrating its nucleophilicity by attacking a neighboring molecule in its lattice. X-ray crystallography confirmed the thioperoxide linkage and revealed structural similarities of the Mo(2)(mu-SOR) unit to sulfenate esters (RSOR) and related derivatives.

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“…Thus, reaction between CpW(CO) 2 (μ‐SMe)W(CO) 5 ( W−W ) and phosphanes formed CpW(PR 3 )(CO) 2 (μ‐SMe)W(CO) 5 2 while its phosphido‐bridged analogue CpW(CO) 2 (μ‐PPh 2 )W(CO) 5 ( W−W ) gave CpW(CO) 2 (μ‐PPh 2 )W(PR 3 )(CO) 4 ( W−W ) 1c. In addition, compounds with thiols as a ligand are significantly related to catalysts and biological activity 3−8. Many of them are bimetallic complexes 3,4,5a,6,7.…”

Section: Introductionmentioning

confidence: 99%

“…In addition, compounds with thiols as a ligand are significantly related to catalysts and biological activity 3−8. Many of them are bimetallic complexes 3,4,5a,6,7. As thiols having strong bridging abilities in coordination, enormous numbers of bimetallic compounds containing (μ‐SR) 2 bridges are reported 9.…”

Section: Introductionmentioning

confidence: 99%

Synthesis and Structure of Heterobimetallic Compounds with a Single Thiolato-Bridged Ligand

Hossain¹,

Lin²,

Shyu³

2001

Eur. J. Inorg. Chem.

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Keywords: Tungsten / Molybdenum / S ligands / Bridging ligands Reactions between CpFe(CO) 2 SPh and M(CO) 5 THF (M = Cr, Mo, and W) in a mixture of benzene and THF at room temperature afforded compounds of the type CpFe(CO) 2 (µ-SPh)M(CO) 5 (1) [M = Cr (1a), Mo (1b), and W (1c)] in high yield. However, migration of the thiolato ligand occurred during reactions between CpM(CO) x SPh (M = Fe, x = 2; M = Mo and W, x = 3) and Fe 2 (CO) 9 forming compounds [Fe(µ-SPh)(CO) 3 ] 2 and [CpM(CO) x ] 2 (M = Fe, x = 2; M = Mo and

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Activation of Ligand Reactivity: Thiolate C−S and Dithiophosphate Ester C−O Heterolyses within a Dimolybdenum(V) System

Cited by 12 publications

References 45 publications

Alkyl Transfer Reactivity in the First Octahedral Isocyanide Complex of Nickel(II)

Alkyl Transfer Reactivity in the First Octahedral Isocyanide Complex of Nickel(II)

Alkylation of a Dimolybdenum SO Bridge, Subsequent Reactions, and Characterization of the Thioperoxide Bridge

Synthesis and Structure of Heterobimetallic Compounds with a Single Thiolato-Bridged Ligand

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