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    Theoretical basis of 2,4-methyl migration, an intramolecular rearrangement, during isomerization of alkyladamantyl cations

    New search for: Bagrii, E. I.
    New search for: Borisov, Yu. A.

    Abstract Quantum-chemical calculations of dimethyl-, trimethyl-, and methylethyladamantyl cations have been performed using the density functional theory method DFT B3LYP/6-31G* with full optimization of energy and computation of normal vibration frequencies and changes in these parameters during the course of their mutual isomeric transformations. The geometric parameters of the compounds, electronic characteristics, electron density distribution, the total energy, transformation energies, transformation entropies, activation energies, and normal vibration frequencies have been calculated. The calculation results confirm earlier experimental data on the occurrence of the direct 2,4-migration of the methyl group during the isomerization of methyladamantyl cations and the preference of this rearrangement to the well-known 1,2-methyl shift in alicyclic carbocations.

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    Theoretical basis of 2,4-methyl migration, an intramolecular rearrangement, during isomerization of alkyladamantyl cations

    New search for: Bagrii, E. I.
    New search for: Borisov, Yu. A.

    Abstract Quantum-chemical calculations of dimethyl-, trimethyl-, and methylethyladamantyl cations have been performed using the density functional theory method DFT B3LYP/6-31G* with full optimization of energy and computation of normal vibration frequencies and changes in these parameters during the course of their mutual isomeric transformations. The geometric parameters of the compounds, electronic characteristics, electron density distribution, the total energy, transformation energies, transformation entropies, activation energies, and normal vibration frequencies have been calculated. The calculation results confirm earlier experimental data on the occurrence of the direct 2,4-migration of the methyl group during the isomerization of methyladamantyl cations and the preference of this rearrangement to the well-known 1,2-methyl shift in alicyclic carbocations.

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    Theoretical basis of 2,4-methyl migration, an intramolecular rearrangement, during isomerization of alkyladamantyl cations

    New search for: Bagrii, E. I.
    New search for: Borisov, Yu. A.

    Abstract Quantum-chemical calculations of dimethyl-, trimethyl-, and methylethyladamantyl cations have been performed using the density functional theory method DFT B3LYP/6-31G* with full optimization of energy and computation of normal vibration frequencies and changes in these parameters during the course of their mutual isomeric transformations. The geometric parameters of the compounds, electronic characteristics, electron density distribution, the total energy, transformation energies, transformation entropies, activation energies, and normal vibration frequencies have been calculated. The calculation results confirm earlier experimental data on the occurrence of the direct 2,4-migration of the methyl group during the isomerization of methyladamantyl cations and the preference of this rearrangement to the well-known 1,2-methyl shift in alicyclic carbocations.

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    Title:

    Theoretical basis of 2,4-methyl migration, an intramolecular rearrangement, during isomerization of alkyladamantyl cations

    Contributors:

    Bagrii, E. I. (author) / Borisov, Yu. A. (author)

    Published in:

    Petroleum Chemistry ; 57 ; 374-379

    Publication date:

    2017-05-01

    Size:

    6 pages

    ISSN:

    1555-6239 , 0965-5441

    DOI:

    https://doi.org/10.1134/S0965544117010042

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    DFT calculations , adamantanes , alkyladamantyl cations , 2,4-methyl shift Chemistry , Industrial Chemistry/Chemical Engineering

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