1985
DOI: 10.1002/oms.1210200507
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The Claisen rearrangement of protonated allyl phenyl ether

Abstract: Molecular protonated ions of ally1 phenyl ether undergo a Claisen rearrangement both in the ion source and along the flight path. The rearranged ions undergo fragmentation, the predominant loss being ethene, and only a small contribution from loss of carbon monoxide is observed. Collision-indoced dissociation spectra are used to verify the structures of the daughter ions. These spectra, together with other evidence of an acid-induced ortho rearrangement, allow a mechanism to be proposed for the ethene loss. In… Show more

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Cited by 29 publications
(20 citation statements)
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“…These observations are consistent with m/z 183 arising from rearrangement through a six-membered transition state to add the three-carbon portion of the side-chain to the 2'-position on the naphthalene ring of the molecule, as e in Scheme 1. This rearrangement is similar to the Claisen rearrangements observed for phenyl allyl ether, phenyl allenyl ether and phenyl propargyl ether under positive CI 7 and EI 8,9 conditions. The retention of all five deuterium atoms in 2e rules out protonated naphthyl propargyl ether as a possible structure for e. Possible stepwise fragmentation pathways to e appear in Scheme 1.…”
Section: à3supporting
confidence: 80%
“…These observations are consistent with m/z 183 arising from rearrangement through a six-membered transition state to add the three-carbon portion of the side-chain to the 2'-position on the naphthalene ring of the molecule, as e in Scheme 1. This rearrangement is similar to the Claisen rearrangements observed for phenyl allyl ether, phenyl allenyl ether and phenyl propargyl ether under positive CI 7 and EI 8,9 conditions. The retention of all five deuterium atoms in 2e rules out protonated naphthyl propargyl ether as a possible structure for e. Possible stepwise fragmentation pathways to e appear in Scheme 1.…”
Section: à3supporting
confidence: 80%
“…From P 12 , the OH radical loss would involve a simple homolytic bond cleavage, and the entropic factors in the transition states would be favorable to cleavage. 8 , respectively, to yield [M + H -H 2 O] + ions, P 2 and P 2c , respectively (Scheme 2c), the latter with reverse activation energy ≥ 300 kJ/mol (Scheme 3, Table 4b). The product [M + H -H 2 O] + ion, P 2c , is a substituted, protonated cyclic ketone, which can extrude CO to form the second-generation product ion, [M + H -(H 2 O + CO)] + , P 6 (Scheme 2c).…”
Section: Theoretical Calculations: Proposed Mechanism Of Cyclizationmentioning
confidence: 99%
“…Fast atom bombardment (FAB), chemical ionization (CI) and electrospray ionization (ESI) readily generate protonated molecules or [M + H] + ions, and well established mass spectrometric methods for ion chemistry, reveal the properties of and the mechanisms for the reactions of protonated molecules in the absence of a solvent. The acid-catalyzed rearrangement of allyl phenyl ether, using chemical ionization (CI) mass spectrometry, is one example of the utility of mass spectrometry in this area [8]. A recent report by Cooks and coworkers [9] on the reduction of nitro aromatic compounds to arylnitrenium ions in the gasphase by radical cations of vinyl halides demonstrate that 'gas-phase synthetic chemistry' remains of current interest.…”
Section: Introductionmentioning
confidence: 99%
“…Gas phase Claisen rearrangements of protonated allyl phenyl ethers [26], protonated Nallylaniline [27], and protonated benzyloxy indoles have been investigated by mass spectrometry [28]. Similar gas phase Claisen rearrangement reactions have been reported in the dissociation process of radical cations formed by electron ionization mass spectrometry (EI-MS) [29][30][31][32][33].…”
Section: Introductionmentioning
confidence: 77%