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• W2046146852 abstract "The reactions of acetonitrile, propyne, acetylene, trimethyl-silylacetylene, and tetramethylsilane, with distonic ions CH2XCH2+ [X = CH2 (2), O (3)] are studied in the gas phase using Fourier Transform Ion Cyclotron Resonance (FTICR) mass spectrometry. In line with previous studies, CH2+ is transferred to the electron Ione-pair of the nitrogen atom of CH3CN to generate CH3CN–CH2+ (4); upon collisional excitation, this ion undergoes competitive losses of H* and CH*. While both neutrals originate from the “methylene” unit of 4′, detailed studies employing labeled substrates and using various types of collision experiments reveal an intriguing dissociation pattern in that the dissociations are preceded by two intramolecular hydrogen migrations giving rise to CH3C(H) = NCH* + (6) and CH3C = N(H)CH*+ (7). While 6 serves as intermediate en route to loss of H* from the “CH” moiety, 7 is the actual precursor to generate, by loss of CH*, protonated acetonitrile, CH3CNH+ (12) (Scheme 5). In addition, 12 is formed by bimolecular proton transfer. In this reaction, translationally excited CX3CN – CY2+ * (X, Y = H, D) transfers X +- to neutral CX3CN to generate CX3CNX+ (Scheme 4). The bimolecular proton transfer as well as the intramolecular isomerizations of 4 to 6 and 7 are subject to very large kinetic isotope effects. In the transfer of CH2+ to CH3C = CH two products are formed [i.e. H3C - C ≡ C - CH3+ (16) and CH2  C = CHCH3+ (l7) presumably via intermediate 18 (Scheme 6)]; the latter is formed by addition of CH2+ to the less hindered carbon atom of HC ≡ CCH3 reflecting the higher stability of the so-formed intermediate compared with addition to C-2, Reactions of 2 and 3 with HC ≡ CH do not result in the formation of a detectable CH2+-transfer product. When using CH2CH2CH2+ (2) the reaction is prohibited by the endothermicity to generate the initial complex (structurally related to 18). On the other hand, when CH2OCH2+ (3) is employed, the intermediate of CH2+ transfer is formed with sufficient energy to split off a hydrogen atom. Preliminary experiments with silicon-containing molecules, like Si(CH3)4 or HC ≡ CSi(CH3)3, demonstrate that the favored processes of these neutrals with 2 and 3 are due to charge transfer (in the form of an electron or an anion like CH-3 or C2H-) from the silicon-containing molecule to the distonic ions. The experimental results obtained for the CH3CN/CH2+ system are supported by ab initio MO calculations (3-21G/3-21G + ZPVE)." @default.
• W2046146852 created "2016-06-24" @default.
• W2046146852 creator A5026363414 @default.
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• W2046146852 date "1990-03-01" @default.
• W2046146852 modified "2023-09-30" @default.
• W2046146852 title "Mechanism of CH ₂ ⁺ Transfer from Distonic Ions X ‐ CH ₂ ⁺ (X = CH ₂ O, CH ₂ CH ₂ ) to π‐ and n‐Electron Bases in the Gas Phase. A Fourier Transform Ion Cyclotron Resonance (FTICR) Study Supplemented by ab initio MO Calculations" @default.
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• W2046146852 doi "https://doi.org/10.1002/cber.19901230320" @default.
• W2046146852 hasPublicationYear "1990" @default.
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