钌（II）-苯氧肟配合物上的配体交换反应作为催化反应的机理研究

Ligand Exchange Reaction on a Ru(II)-Pheox Complex as a Mechanistic Study of Catalytic Reactions.

作者信息

Nakagawa Yoko, Imokawa Yusuke, Fujisawa Ikuhide, Nakayama Naofumi, Goto Hitoshi, Chanthamath Soda, Shibatomi Kazutaka, Iwasa Seiji

机构信息

Department of Environmental and Life Sciences and Department of Computer Science and Engineering, Toyohashi University of Technology, 1-1 Tempaku-cho, Toyohashi 441-8580, Aichi, Japan.

CONFLEX Corporation, Shinagawa Center Building, 6F, 3-23-17 Takanawa, Minato-ku, Tokyo 108-0074, Japan.

出版信息

ACS Omega. 2018 Sep 17;3(9):11286-11289. doi: 10.1021/acsomega.8b01510. eCollection 2018 Sep 30.

DOI:10.1021/acsomega.8b01510

PMID:31459237

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6645107/

Abstract

A ligand exchange of one of the acetonitrile ligands of the (acetonitrile)Ru(II)-phenyloxazoline complex (Ru(II)-Pheox) by pyridine was demonstrated, and the location of the exchange reaction was examined by density functional theory (DFT) calculations to study the mechanism of its catalytic asymmetric reactions. The acetonitrile was smoothly exchanged with a pyridine to afford the corresponding (pyridine)(acetonitrile)Ru(II)-Pheox complex with a trans orientation (C-Ru-N(pyridine)) in a quantitative yield, and the complex was analyzed by single-crystal X-ray analysis. DFT calculations indicated that the most eliminable acetonitrile is the trans group, which is consistent with the X-ray analysis. The direction of the ligand exchange is thus determined on the basis of the energy gap of the ligand elimination instead of the stability of the metal complex. These results suggested that a reactant in a Ru-Pheox-catalyzed reaction should approach trans to the C-Ru bond to generate chirality on the Ru center.

摘要

已证实（乙腈）Ru（II）-苯基恶唑啉配合物（Ru（II）-Pheox）中的一个乙腈配体可被吡啶进行配体交换，并且通过密度泛函理论（DFT）计算研究了交换反应的位置，以探究其催化不对称反应的机理。乙腈与吡啶顺利发生交换，以定量产率得到具有反式取向（C-Ru-N（吡啶））的相应（吡啶）（乙腈）Ru（II）-Pheox配合物，并通过单晶X射线分析对该配合物进行了分析。DFT计算表明，最易消除的乙腈是反式基团，这与X射线分析结果一致。因此，配体交换的方向是根据配体消除的能隙而非金属配合物的稳定性来确定的。这些结果表明，Ru-Pheox催化反应中的反应物应与C-Ru键呈反式接近，以在Ru中心产生手性。

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钌（II）-苯氧肟配合物上的配体交换反应作为催化反应的机理研究

Ligand Exchange Reaction on a Ru(II)-Pheox Complex as a Mechanistic Study of Catalytic Reactions.

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