芳香性增强提高了多点氢键阵列的固有缔合强度。

Aromaticity gain increases the inherent association strengths of multipoint hydrogen-bonded arrays.

作者信息

Wu Chia-Hua, Zhang Yu, van Rickley Krista, Wu Judy I

机构信息

University of Houston, Houston, TX, USA.

出版信息

Chem Commun (Camb). 2018 Apr 3;54(28):3512-3515. doi: 10.1039/C8CC00422F.

DOI:10.1039/C8CC00422F

PMID:29564451

Abstract

Textbook explanations for the associations of multipoint hydrogen-bonded arrays have long hinged on the secondary electrostatic interaction (SEI) model, which suggests that array association strengths depend on the proton donor (D) and acceptor (A) patterns of the interacting units. Here, computational results based on the block-localized wavefunction (BLW) method reveal limitations of the SEI model, demonstrating instead that, in the gas-phase (and in implicit chloroform solvation), the inherent free-energies of associations of multipoint hydrogen-bonded arrays correlate with the degree of "aromaticity gain" (i.e., the amount of increased cyclic π-electron delocalization) in arrays upon complexation. Excellent correlations for 46 triply (r = 0.940) and quadruply (r = 0.959) hydrogen-bonded arrays are presented.

摘要

关于多点氢键阵列关联的教科书式解释长期以来一直依赖于二次静电相互作用（SEI）模型，该模型表明阵列的关联强度取决于相互作用单元的质子供体（D）和受体（A）模式。在此，基于块定域波函数（BLW）方法的计算结果揭示了SEI模型的局限性，相反表明，在气相（以及在隐含氯仿溶剂化中），多点氢键阵列的固有缔合自由能与络合时阵列中“芳香性增益”的程度（即环状π电子离域增加的量）相关。给出了46个三重（r = 0.940）和四重（r = 0.959）氢键阵列的优异相关性。

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芳香性增强提高了多点氢键阵列的固有缔合强度。

Aromaticity gain increases the inherent association strengths of multipoint hydrogen-bonded arrays.

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