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硒脲和磷烯的核磁共振光谱能让我们了解到关于杂环卡宾的π-接受能力的哪些信息?

What can NMR spectroscopy of selenoureas and phosphinidenes teach us about the π-accepting abilities of -heterocyclic carbenes?

作者信息

Vummaleti Sai V C, Nelson David J, Poater Albert, Gómez-Suárez Adrián, Cordes David B, Slawin Alexandra M Z, Nolan Steven P, Cavallo Luigi

机构信息

KAUST Catalyst Center , Physical Sciences and Engineering Division , King Abdullah University of Science and Technology , Thuwal , 23955-6900 , Saudi Arabia . Email:

EaStCHEM School of Chemistry , University of St Andrews , Purdie Building, North Haugh , St Andrews , Fife KY16 9ST , UK . Email:

出版信息

Chem Sci. 2015 Mar 1;6(3):1895-1904. doi: 10.1039/c4sc03264k. Epub 2015 Feb 16.

DOI:10.1039/c4sc03264k
PMID:29449918
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5812343/
Abstract

The electronic nature of the interaction of NHCs with metal centres is of interest when exploring their properties, how these properties influence those of metal complexes, and how these properties might depend on ligand structure. Selenourea and phosphinidene complexes have been proposed to allow the measurement of the π-accepting ability of NHCs, independent of their σ-donating ability, the collection of Se or P NMR spectra, respectively. Herein, the synthesis and characterisation of selenoureas derived from a range of imidazol-2-ylidenes, 4,5-dihydroimidazol-2-ylidenes and triazol-2-ylidenes are documented. Computational studies are used to explore the link between the shielding of the selenium centre and the electronic properties of the NHCs. Results show that is correlated to the energy gap between a filled lone pair orbital on Se and the empty π* orbital corresponding to the Se-NHC bond. Bond energy decomposition analysis indicated no correlation between the orbital σ-contribution to bonding and the chemical shielding, while a good correlation was found between the π-contribution to bonding and the chemical shielding, confirming that this technique is indeed able to quantify the ability of NHCs to accept π-electron density. Calculations conducted on phosphinidene adducts yielded similar results. With the link between and and π-back bonding ability clearly established, these compounds represent useful ways in which to fully understand and quantify this aspect of the electronic properties of NHCs.

摘要

在探索氮杂环卡宾(NHCs)的性质、这些性质如何影响金属配合物的性质以及这些性质如何依赖于配体结构时,NHCs与金属中心相互作用的电子性质备受关注。有人提出,硒脲和磷烯配合物分别通过收集硒或磷的核磁共振光谱,能够测量NHCs的π接受能力,而不受其σ供体能力的影响。本文记录了一系列源自咪唑 - 2 - 亚基、4,5 - 二氢咪唑 - 2 - 亚基和三唑 - 2 - 亚基的硒脲的合成与表征。通过计算研究来探索硒中心的屏蔽与NHCs电子性质之间的联系。结果表明,这与硒上填充的孤对轨道和对应于Se - NHC键的空π*轨道之间的能隙相关。键能分解分析表明,轨道对键合的σ贡献与化学屏蔽之间没有相关性,而对键合的π贡献与化学屏蔽之间存在良好的相关性,证实了该技术确实能够量化NHCs接受π电子密度的能力。对磷烯加合物进行的计算得出了类似的结果。随着与π反馈键合能力之间的联系明确建立,这些化合物代表了全面理解和量化NHCs电子性质这一方面的有用方法。

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