Issue 27, 2019

A computational study on the identity of the active catalyst structure for Ru(ii) carboxylate assisted C–H activation in acetonitrile

Abstract

Density Functional Theory (DFT) calculations using a consistent methodology accounting for solvation, dispersion and thermal effects have been used to study C–H activation of the simple directing group substrate 2-phenylpyridine (a-H). The computational model uses acetate (OAc) and benzene to represent the carboxylate and arene co-ligands coordinated at a Ru organometallic complex. A variety of different mechanisms ranging from cationic to neutral, ion-paired, arene free, two substrates bound, and solvent (MeCN) coordinated have been explored. Computed results indicate that the cationic pathways from “B+”, [(C6H6)Ru(OAc)(a-H)]+, and “D+6)”, [(η6-a-H)Ru(OAc)(a-H)]+, involve the lowest overall barriers to C–H activation. Consideration of solvent coordination leads to a complex variety of isomers and conformers. Here a neutral pathway with either one or two acetonitriles coordinated to the Ru centre give very low barriers to C–H activation.

Graphical abstract: A computational study on the identity of the active catalyst structure for Ru(ii) carboxylate assisted C–H activation in acetonitrile

Supplementary files

Article information

Article type
Paper
Submitted
11 May 2019
Accepted
18 Jun 2019
First published
25 Jun 2019
This article is Open Access
Creative Commons BY license

Org. Biomol. Chem., 2019,17, 6678-6686

A computational study on the identity of the active catalyst structure for Ru(II) carboxylate assisted C–H activation in acetonitrile

C. L. McMullin, N. A. Rajabi and J. S. Hammerton, Org. Biomol. Chem., 2019, 17, 6678 DOI: 10.1039/C9OB01092K

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