3D and 4D molecular models derived from the ideal symmetry method: Prediction of alkanes normal boiling points

German Krenkel; Eduardo A. Castro; Andrey A. Toropov

doi:10.1016/S0009-2614(02)00292-0

3D and 4D molecular models derived from the ideal symmetry method: Prediction of alkanes normal boiling points

German Krenkel, Eduardo A. Castro, Andrey A. Toropov

Istituto di Ricerche Farmacologiche "Mario Negri"

Research output: Contribution to journal › Article › peer-review

Abstract

The Method of Ideal Symmetry is applied to define new 3D and 4D molecular descriptors on the basis of some analogies with the vertex distance sum in molecular graphs. These new descriptors are employed together with well-known topological descriptors to make up a pool of available variables to perform a multilinear regression analysis of alkanes normal boiling points. Predictions are satisfactory and they compare fairly well with other available theoretical data. The fitting polynomials are improved through the analysis of nonlinear models and in such cases predictions are ameliorated, although not in a very spectacular manner. Finally, some possible extensions of the present study are pointed out.

Original language	English
Pages (from-to)	517-528
Number of pages	12
Journal	Chemical Physics Letters
Volume	355
Issue number	5-6
DOIs	https://doi.org/10.1016/S0009-2614(02)00292-0
Publication status	Published - Apr 8 2002

ASJC Scopus subject areas

Physical and Theoretical Chemistry
Spectroscopy
Atomic and Molecular Physics, and Optics

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title = "3D and 4D molecular models derived from the ideal symmetry method: Prediction of alkanes normal boiling points",

abstract = "The Method of Ideal Symmetry is applied to define new 3D and 4D molecular descriptors on the basis of some analogies with the vertex distance sum in molecular graphs. These new descriptors are employed together with well-known topological descriptors to make up a pool of available variables to perform a multilinear regression analysis of alkanes normal boiling points. Predictions are satisfactory and they compare fairly well with other available theoretical data. The fitting polynomials are improved through the analysis of nonlinear models and in such cases predictions are ameliorated, although not in a very spectacular manner. Finally, some possible extensions of the present study are pointed out.",

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AU - Castro, Eduardo A.

AU - Toropov, Andrey A.

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N2 - The Method of Ideal Symmetry is applied to define new 3D and 4D molecular descriptors on the basis of some analogies with the vertex distance sum in molecular graphs. These new descriptors are employed together with well-known topological descriptors to make up a pool of available variables to perform a multilinear regression analysis of alkanes normal boiling points. Predictions are satisfactory and they compare fairly well with other available theoretical data. The fitting polynomials are improved through the analysis of nonlinear models and in such cases predictions are ameliorated, although not in a very spectacular manner. Finally, some possible extensions of the present study are pointed out.

AB - The Method of Ideal Symmetry is applied to define new 3D and 4D molecular descriptors on the basis of some analogies with the vertex distance sum in molecular graphs. These new descriptors are employed together with well-known topological descriptors to make up a pool of available variables to perform a multilinear regression analysis of alkanes normal boiling points. Predictions are satisfactory and they compare fairly well with other available theoretical data. The fitting polynomials are improved through the analysis of nonlinear models and in such cases predictions are ameliorated, although not in a very spectacular manner. Finally, some possible extensions of the present study are pointed out.

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3D and 4D molecular models derived from the ideal symmetry method: Prediction of alkanes normal boiling points

Abstract

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