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A theoretical approach to substituent effects. Structural consequences of electrostatic and orbital interactions in model mono- and disubstituted methanes

✍ Scribed by Addy Pross; Leo Radom

Publisher: John Wiley and Sons
Year: 1980
Tongue: English
Weight: 491 KB
Volume: 1
Category: Article
ISSN: 0192-8651
DOI: 10.1002/jcc.540010313

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✦ Synopsis

Abstract

Ab initio molecular orbital theory is used to examine the effect of substituents on bond lengths in mono‐ and disubstituted methanes. The relative importance of electrostatic and orbital interaction terms are assessed. The results suggest that for substituents (X) which show powerful σ effects and weak π interactions (e.g., F), the changes in bond length are due primarily to the electrostatic component except in some disubstituted methanes in which case the change in the hyperconjugative ability of the C—X bond is also important. On the other hand, substituents X which show weak σ effects but powerful π interactions (e.g., NH~2~) affect bond lengths primarily through hyperconjugative interaction of a filled or vacant π‐type orbital on X with the adjacent bonds.

📜 SIMILAR VOLUMES

A theoretical approach to substituent ef

A theoretical approach to substituent effects. A comparison of the isoelectronic BH, CH3, and NH groups and their interaction with substituents in disubstituted benzenes

✍ Gary Kemister; Addy Pross; Leo Radom; Robert W. Taft 📂 Article 📅 1981 🏛 John Wiley and Sons 🌐 English ⚖ 638 KB

## Abstract __Ab initio__ molecular orbital theory with the STO‐3G basis set is used to examine both charge and energy interactions in a series of meta‐ and para‐substituted phenylborate anions and toluenes. Comparison of the results is made with data for substituted anilinium cations. It is conclu