静电驱动的 CO-π 芳香相互作用。

Electrostatically Driven CO-π Aromatic Interactions.

机构信息

Department of Chemistry and Biochemistry , University of South Carolina , Columbia , South Carolina 29208 , United States.

Department of Biology, Chemistry, and Physics , Converse College , Spartanburg , South Carolina 29302 , United States.

出版信息

J Am Chem Soc. 2019 Aug 14;141(32):12513-12517. doi: 10.1021/jacs.9b06363. Epub 2019 Jul 31.

DOI:10.1021/jacs.9b06363

PMID:31348856

Abstract

A series of -arylimide molecular balances were developed to study and measure carbonyl-aromatic (CO-π) interactions. Carbonyl oxygens were observed to form repulsive interactions with unsubstituted arenes and attractive interactions with electron-deficient arenes with multiple electron-withdrawing groups. The repulsive and attractive CO-π aromatic interactions were well-correlated to electrostatic parameters, which allowed accurate predictions of the interaction energies based on the electrostatic potentials of the carbonyl and arene surfaces. Due to the pronounced electrostatic polarization of the C═O bond, the CO-π aromatic interaction was stronger than the previously studied oxygen-π and halogen-π aromatic interactions.

摘要

一系列的芳基酰亚胺分子平衡被开发出来用于研究和测量羰基-芳环（CO-π）相互作用。羰基氧被观察到与未取代的芳环形成排斥相互作用，而与具有多个吸电子基团的缺电子芳环形成吸引相互作用。这种排斥和吸引的 CO-π 芳环相互作用与静电参数很好地相关，这使得可以根据羰基和芳环表面的静电势来准确预测相互作用能。由于 C=O 键的显著静电极化，CO-π 芳环相互作用比以前研究过的氧-π 和卤代-π 芳环相互作用更强。

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静电驱动的 CO-π 芳香相互作用。

Electrostatically Driven CO-π Aromatic Interactions.

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