Issue 11, 2016

A mechanistic study of the addition of alcohol to a five-membered ring silene via a photochemical reaction

Abstract

The mechanism for the photochemical rearrangement of a cyclic divinyldisilane (1-Si) in its first excited state (1π → 1π*) is determined using the CAS/6-311G(d) and MP2-CAS/6-311++G(3df,3pd) levels of theory. The photoproduct, a cyclic silene, reacts with various alcohols to yield a mixture of cis- and trans- adducts. The two reaction pathways are denoted as the cis- addition path (path A) and the trans-addition path (path B). These model studies demonstrate that conical intersections play a crucial role in the photo-rearrangements of cyclic divinyldisilanes. The theoretical evidence also demonstrates that the addition of alcohol to a cyclic divinyldisilane follows the reaction path: cyclic divinyldisilane → Franck–Condon region → conical intersection → photoproduct (cyclic silene) → local intermediate (with alcohol) → transition state → cis- or trans-adduct. The theoretical studies demonstrate that the steric effects as well as the concentrations of CH3OH must have a dominant role in determining the yields of the final adducts by stereochemistry. The same mechanism for the carbon derivative (1-C) is also considered in this work. However, the theoretical results indicate that 1-C does not undergo a methanol addition reaction via the photochemical reaction pathway, since its energy of conical intersection (S1/S0-CI-C) is more than that of its FC (FC-C). The reason for these phenomena could be that the atomic radius of carbon is much smaller than that of silicon (77 and 117 pm, respectively). As a result, the conformation for 1-C is more sterically congested than that for 1-Si, along the 1,3-silyl-migration pathway.

Graphical abstract: A mechanistic study of the addition of alcohol to a five-membered ring silene via a photochemical reaction

Supplementary files

Article information

Article type
Paper
Submitted
10 Nov 2015
Accepted
19 Feb 2016
First published
19 Feb 2016

Phys. Chem. Chem. Phys., 2016,18, 8228-8234

Author version available

A mechanistic study of the addition of alcohol to a five-membered ring silene via a photochemical reaction

M. Su, Phys. Chem. Chem. Phys., 2016, 18, 8228 DOI: 10.1039/C5CP06857F

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