Issue 22, 2018

A DFT-based mechanistic proposal for the light-driven insertion of dioxygen into Pt(ii)–C bonds

Abstract

The photocatalyzed insertion of dioxygen into the Pt(II)–methyl bond in terpyridine platinum complexes has been shown to proceed efficiently, but its mechanism remains a challenge. In particular, there are serious counter-intuitive differences in the reactivity of structurally similar complexes. M06 calculations in solvent with a valence double-ζ basis set supplemented by polarization and diffusion shells (benchmarked against ωB97x-D calculations with a larger basis set) are able to provide a satisfactory mechanistic answer. The proposed mechanism starts with the absorption of a photon by the metal complex, which then evolves into a triplet state that reacts with the triplet dioxygen fragment. A variety of possible reaction paths have been identified, some leading to the methylperoxo product and others reverting to the reactants, and the validity of some of these paths has been confirmed by additional experiments. The balance between the barriers towards productive and unproductive paths reproduces the diverging experimental behavior of similar complexes and provides a general mechanistic picture for these processes.

Graphical abstract: A DFT-based mechanistic proposal for the light-driven insertion of dioxygen into Pt(ii)–C bonds

Supplementary files

Article information

Article type
Edge Article
Submitted
12 Mar 2018
Accepted
03 May 2018
First published
04 May 2018
This article is Open Access

All publication charges for this article have been paid for by the Royal Society of Chemistry
Creative Commons BY-NC license

Chem. Sci., 2018,9, 5039-5046

A DFT-based mechanistic proposal for the light-driven insertion of dioxygen into Pt(II)–C bonds

V. M. Fernández-Alvarez, S. K. Y. Ho, G. J. P. Britovsek and F. Maseras, Chem. Sci., 2018, 9, 5039 DOI: 10.1039/C8SC01161C

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