Issue 12, 1989
From the journal:

Journal of the Chemical Society, Perkin Transactions 2

Gas-phase rearrangements of deprotonated ketoximes, ketoxime ethers, and aldoximes. A negative-ion beckmann rearrangement

Gregory W. Adams,   John H. Bowie  and  Roger N. Hayes  

Abstract

Evidence is presented which indicates that the pronounced loss of water from deprotonated ketoximes involves specific proton transfer followed by a negative-ion Beckmann rearrangement. For example, Me2C[double bond, length half m-dash]NOCH2(Me)C[double bond, length half m-dash]NOH[graphic omitted][(CH2[double bond, length half m-dash]C[double bond, length half m-dash]NMe)OH]→ CH2[double bond, length half m-dash]C[double bond, length half m-dash]NCH2+ H2O. Deprotonated aldoximes, e.g. MeCH[double bond, length half m-dash]NO, fragment in this way, but also undergo the competing process MeCH[double bond, length half m-dash]NO→ Me[C with combining macron][double bond, length half m-dash]NOH →[(MeCN)OH]→CH2CN + H2O. Other rearrangements occur when proton transfer to oxygen does not occur; e.g. Ph2C[double bond, length half m-dash]NO [graphic omitted] Ph[C with combining macron][double bond, length half m-dash]NOPh → PhO+ PhCN.

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Article information

DOI
https://doi.org/10.1039/P29890002159
Article type
Paper

J. Chem. Soc., Perkin Trans. 2, 1989, 2159-2167

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Gas-phase rearrangements of deprotonated ketoximes, ketoxime ethers, and aldoximes. A negative-ion beckmann rearrangement

G. W. Adams, J. H. Bowie and R. N. Hayes, J. Chem. Soc., Perkin Trans. 2, 1989, 2159 DOI: 10.1039/P29890002159

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