卤素键给体的超分子层次结构。

Supramolecular hierarchy among halogen-bond donors.

机构信息

Department of Chemistry, Kansas State University, 211 CBC Building, Manhattan, KS 66506 (USA), Fax: (+1) 785-532-6666.

出版信息

Chemistry. 2013 Nov 25;19(48):16240-7. doi: 10.1002/chem.201302162. Epub 2013 Oct 15.

DOI:10.1002/chem.201302162

Abstract

Through a combination of structural chemistry, vibrational spectroscopy, and theory, we have systematically examined the relative structure-directing importance of a series of ditopic halogen-bond (XB) donors. The molecular electrostatic potential surfaces of six XB donors were evaluated, which allowed for a charge-based ranking. Each molecule was then co-crystallized with 21 XB acceptors and the results have made it possible to map out the supramolecular landscape describing the competition between I/Br-ethynyl donors, perfluorinated I/Br donors, and I/Br-phenyl based donors. The results offer practical guidelines for synthetic crystal engineering driven by robust and directional halogen bonds.

摘要

通过结构化学、振动光谱和理论的结合，我们系统地研究了一系列双位卤键（XB）给体的相对结构导向重要性。评估了六个 XB 给体的分子静电势表面，从而可以进行基于电荷的排序。然后，将每个分子与 21 个 XB 受体共结晶，结果使得有可能描绘出超分子景观，描述 I/Br-乙炔供体、全氟 I/Br 供体和 I/Br-苯供体之间的竞争。这些结果为基于强大和定向卤键的合成晶体工程提供了实用指南。

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卤素键给体的超分子层次结构。

Supramolecular hierarchy among halogen-bond donors.

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