Sources of symmetry in ‘Blind Tests’ crystal structures

IF 2.6 3区化学 Q2 CHEMISTRY, MULTIDISCIPLINARY

CrystEngComm Pub Date : 2025-09-02 DOI:10.1039/D5CE00618J

Simon N. Black

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Abstract

Molecules create crystals via intermolecular interactions that embody long-range order. Previously, close approaches between the aromatic rings of halobenzene molecules, designated ‘Symthons’, were found to be highly effective in creating long-range order in their crystal structures. Here, analysis of 42 ‘blind test’ crystal structures extends the application of ‘Symthons’ to fused rings, heterocycles and five-membered rings. This concept is further adapted to identify hydrogen-bonded approaches which create symmetry. Most of the 42 crystal structures contain at least one Symthon, some of which create long-range order. Other aromatic approaches and hydrogen bonds help to create symmetrical interactions, providing an alternative route to long-range order. In this dataset, hydrogen bonds were both less frequent and less effective at creating long-range order. However, hydrogen bonds were more effective at linking different molecules in salts, hydrates and cocrystals. Implications for nucleation, supramolecular synthons and graph sets are discussed briefly.

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“盲测”晶体结构对称性的来源

分子通过分子间的相互作用形成晶体，这种相互作用体现了长程秩序。以前，卤苯分子芳香环之间的紧密联系，被称为“Symthons”，被发现在它们的晶体结构中创建远程秩序非常有效。在这里，对42个“盲测”晶体结构的分析将“Symthons”的应用扩展到熔环、杂环和五元环。这个概念进一步适用于识别创造对称的氢键方法。42种晶体结构中的大多数至少包含一种Symthon，其中一些形成了长程序列。其他芳香族方法和氢键有助于产生对称的相互作用，为长时间的有序提供了另一种途径。在这个数据集中，氢键在创建远程序列时既不太频繁也不太有效。然而，氢键在连接盐、水合物和共晶中的不同分子时更有效。简要讨论了成核、超分子合成子和图集的意义。

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