1997
DOI: 10.1002/chem.19970030117
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Epoxidation and Oxygen Insertion Into Alkane Ch Bonds by Dioxirane Do Not Involve Detectable Radical Pathways

Abstract: Abstract:The dimethyldioxirane oxida-served. Even for these alkenes, which are proposed radical mechanism. The selection of a-methylstyrene, rruns-cyclo-prone to radical reactions, the previously tive hydroxylation of ( -)-2-phenylbutane octene, and 1 -vinyl-2,2-diphenylcycloestablished electrophilic concerted mech-by dimethyldioxirane gave only ( -)-2-propane gave, under all reaction condi-anism applies, rather than the recently phenylbutan-2-01 with complete retention tions employed, the corresponding epoxof… Show more

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Cited by 86 publications
(66 citation statements)
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“…Few years ago we have explained the oxidation of a variety of organic compounds (hydrocarbons, alcohols, ethers, aldehydes, etc.) by peracids [25] and dioxiranes [59], in contrast with the generally accepted mechanism of "concerted oxenoid oxygen insertion" [60,61], which postulates butterfly type transition states (Eqs. (86) and (87)), similar to the one originally suggested by Bartlett [62] for alkene epoxidation by peroxides:…”
Section: Aerobic Oxidation Of Ispropylaromatics Catalyzed By Nhpi Fmentioning
confidence: 96%
“…Few years ago we have explained the oxidation of a variety of organic compounds (hydrocarbons, alcohols, ethers, aldehydes, etc.) by peracids [25] and dioxiranes [59], in contrast with the generally accepted mechanism of "concerted oxenoid oxygen insertion" [60,61], which postulates butterfly type transition states (Eqs. (86) and (87)), similar to the one originally suggested by Bartlett [62] for alkene epoxidation by peroxides:…”
Section: Aerobic Oxidation Of Ispropylaromatics Catalyzed By Nhpi Fmentioning
confidence: 96%
“…The oxidation of (R)-2-phenylbutane by D MDO proceeds with complete maintenance of the configuration, although the radical H atom abstraction from the chiral center should be accompanied by racemization. 16 The data on the oxidation of (trans-2-phenylcyclopropyl)ethane by dioxirane la can serve as additional argument in favor of the "oxenoid" mechanismfl 7 This reaction virtually proceeds without opening the three-membered cycle of the hydrocarbon (Scheme 3).…”
Section: Dioxirane La Reacts Selectively With the C--h Bond The Ratimentioning
confidence: 98%
“…The mechanistic interpretations and the origins of the selectivities are not clear yet, [74] however, the concerted mechanism of the C À H insertion of the peracid through a highly polarized transition structures is likely. [74] The mechanistic dichotomy in the reactions of alkanes with peracids, i.e., concerted asc.wiley-vch.de insertion vs. molecule induced homolysis [75] is somewhat reminiscent of dioxirane chemistry, where clear evidence for concerted [76] paths was identified recently. [42] The selectivities for radical oxyfunctionalizations may also be substantially increased with the less reactive and bulky t-BuO radical.…”
Section: Radical Oxyfunctionalizations Of Alkanes In the Condensed Statementioning
confidence: 99%