来自剑桥结构数据库(CSD)的有机小分子化合物中C=S、C=Se和C=Te与C- h的氢键

Dikima D. Bibelayi, Albert S. Lundemba, P. V. Tsalu, Pitchouna I. Kilunga, J. Tshishimbi, Zéphirin G. Yav
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引用次数: 2

摘要

自从IUPAC委员会重新定义了氢键以来,对涉及氢的氢键的相当大的兴趣已经增长。重点不仅在于非传统的受援国,还在于以前没有讨论过的捐助国。在以前的研究中提到,H-C基团的质子可以参与氢键,但与常规受体。在这项研究中,我们利用剑桥结构数据库结合Ab Initio计算,探讨了Se, S和Te受体与H-C供体形成氢键的能力。在CSD中,分别有256个、6249个和11个r1、r2、c =Se、r1、r2、c =S和r1、r2、c =Te形成氢键的结构,其中N、N基团居多。除了C=S受体可以与其C, C基团形成氢键外,C =Se和C=Te受体只能与N,C和N,N基团形成氢键。CSD分析显示d(范数)在−0.04 Å附近非常相似,而dft计算的N,C和N,N组的相互作用也相似。由CSD分析得出的相互作用距离和dft计算的相互作用能均表明,受体与h - cf3形成稳定的配合物。除了氢键,
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hydrogen Bonds of C=S, C=Se and C=Te with C-H in Small-Organic Molecule Compounds Derived from the Cambridge Structural Database (CSD)
Considerable interest in hydrogen bonding involving chalcogen has been growing since the IUPAC committee has redefined hydrogen bonding. Not only the focus is on unconventional acceptors, but also on donors not discussed before. It has been mentioned in previous studies that the proton of the H-C group could be involved in hydrogen bonding, but with conventional acceptors. In this study, we explored the ability of hydrogen bond formation of Se, S and Te acceptors with the H-C donor using Cambridge Structural Database in conjunction with Ab Initio calculations. In the CSD, there are respectively 256, 6249 and 11 R 1 ,R 2 ,-C=Se, R 1 ,R 2 ,-C=S and R 1 ,R 2 ,-C=Te structures that form hydrogen bonds, in which the N,N groups are majority. Except for C=S acceptor which can form a hydrogen bond with its C, C group, both C=Se and C=Te acceptors could form a hydrogen bond only with N,C and N,N groups. CSD analysis shows very similar d (norm) around −0.04 Å, while DFT-calculated interaction for N,C and N,N groups are also similar. Both interaction distances derived from CSD analysis and DFT-calculated interaction energies demonstrate that the acceptors form stable complexes with H-CF 3 . Besides hydrogen bonds,
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