通过分子静电势地形评估键上和键间取代效应。

Appraisal of through-bond and through-space substituent effects via molecular electrostatic potential topography.

机构信息

Computational Modeling and Simulation Section, National Institute for Interdisciplinary Science and Technology (CSIR), Trivandrum 695019, India.

出版信息

J Phys Chem A. 2010 Nov 25;114(46):12330-3. doi: 10.1021/jp107689z. Epub 2010 Nov 2.

DOI:10.1021/jp107689z

PMID:21043490

Abstract

Through-bond (TB) and through-space (TS) substituent effects in substituted alkyl, alkenyl, and alkynyl arenes are quantified separately using molecular electrostatic potential (MESP) topographical analysis. The deepest MESP point over the aromatic ring (V(min)) is considered as a probe for monitoring these effects for a variety of substituents. In the case of substituted alkyl chains, the TS effect (79.6%) clearly dominates the TB effect, whereas in the unsaturated analogues the TB effect (∼55%) overrides the TS effect.

摘要

通过分子静电势（MESP）地形分析，分别量化取代的烷基、烯基和炔基芳基中的键间（TB）和键上（TS）取代基效应。在芳环上的 MESP 最低点（V(min)）被认为是监测各种取代基这些效应的探针。对于取代的烷基链，TS 效应（79.6%）明显占主导地位，而在不饱和类似物中，TB 效应（~55%）占主导地位。

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通过分子静电势地形评估键上和键间取代效应。

Appraisal of through-bond and through-space substituent effects via molecular electrostatic potential topography.

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