Transition metal-substituted Dawson anions as chemo- and regio-selective oxygen transfer catalysts for H₂O₂ in the epoxidation of allylic alcohols

Stapleton, Andrew J.; Sloan, Matthew E.; Napper, Nathan J.; Burns, Robert C.

Title: Transition metal-substituted Dawson anions as chemo- and regio-selective oxygen transfer catalysts for H₂O₂ in the epoxidation of allylic alcohols
Creator: Stapleton, Andrew J.; Sloan, Matthew E.; Napper, Nathan J.; Burns, Robert C.
Relation: Dalton Transactions Issue 43, p. 9603-9615
Publisher Link: http://dx.doi.org/10.1039/B912131P
Publisher: Royal Society of Chemistry
Resource Type: journal article
Date: 2009
Description: Organic-soluble transition metal-substituted Dawson compounds [(n-C₄H₉)₄N]₉[P₂W₁₇O₆₁M(Br)](Mⁿ⁺=Co²⁺,Ni²⁺,Cu²⁺andZn²⁺),[(n-C₄H₉)₄N]7[HP₂W₁₇O₆₁M(Br)](Mⁿ⁺=Cr³⁺,Mn³⁺and Fe³⁺)and[K/(n-C₄H₉)₄N]₁₀₋n[P₂W₁₇O₆₁M(H₂O)](Mⁿ⁺=Ir⁴⁺, Ru³⁺andPd²⁺)have been investigated as oxygen transfer agents for H₂O₂ to a series of primary allylic alcohols to generate epoxides under biphasic reaction conditions (1,2-dichloroethane/H₂O)at 30 or 35°C, such that the effect of variations in the substituted transition metals could be evaluated. The allylic alcohols involved the species R₁R₂CC(R₃)CH₂–OH(where R₁, R₂ and R₃ = H or Me), as well as cyclic(2-cyclohexen-1-ol), bicyclic [(R-)-(−)-myrtenol and (R-)-(−)-nopol] and species with two unsaturated sites (geraniol and nerol). The reactions are highly chemoselective and regioselective. The order of reactivity for the M(II)-substituted species is Pd(II)>Zn(II)>Co(II)>Ni(II),and for M(III) and M(IV) substitution is Mn(III)~Ir(IV)>Fe(III)>Cr(III). The observed orders are consistent with the formation of metal(n+)-alcohol species as part of the reaction mechanism. For the more polarizing Ir(IV), however, Ir(IV)-alcoholate species are likely involved in the mechanism. Formation constants for the Mn(III)and Co(II)-phosphopolyoxotungstate-alcohol species with all of the above alcohols have been evaluated in 1,2-dichloroethane at 25 °C and range from 19.0-3.5 M⁻¹. The most likely transition state involves coordination of the alcohol to the transition metal substituted at the lacunary site, or alkoxide in the case of Ir(IV), along with interaction of the double bond of the alcohol with a peroxogroup located at a W(VI) site adjacent to the substituted transition metal.
Subject: Dawson; metal-substituted; oxygen; allylic alcohols
Identifier: http://hdl.handle.net/1959.13/917015
Identifier: uon:8178
Identifier: ISSN:1477-9226
Language: eng
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