A new mechanism for the Favorskii rearrangement

Noriko Tsuchida; Shoko Yamazaki; Shinichi Yamabe

doi:10.1039/B806577B

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A new mechanism for the Favorskii rearrangement†

Noriko Tsuchida,^a Shoko Yamazaki^a and Shinichi Yamabe*^a

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* Corresponding authors

^a Department of Chemistry, Nara University of Education, Takabatake-cho, Nara, Japan
E-mail: yamabes@nara-edu.ac.jp

Abstract

The title reaction was investigated by the use of ONIOM-RB3LYP calculations. A reaction system composed of α-chlorocyclohexanone, a methoxide ion and 8 MeOH solvent molecules was adopted. Two reaction channels, the semibenzilic acid mechanism (A) and cyclopropanone mechanism (B), were compared. B is found to be more favorable than A. The rate-determining step of B is the (MeOH)₃ addition transition state (TS3B) to the cyclopropanone intermediate. While TS3B involves a concerted function of MeO⁻ addition and proton relays, it has a large activation energy. A new route was found, where the chloride ion evolved at the cyclopropane formation step (TS2B) works as a nucleophile to the cyclopropanone intermediate. Thus, a cyclopentane-carbonyl chloride intermediate is formed with a small activation energy. A new cyclopropanone mechanism is proposed.

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Supplementary files

Reactant, intermediates and product geometries, reaction-coordinate vectors corresponding to respective sole imaginary frequencies for TSs and geometries of MeO ⁻(MeOH) ₁₁ and Na ⁺(MeOH) ₁₁MeO ⁻ (Fig. S1–S8). Cartesian coordinates of the optimized geometries of Fig. 1, 2 and 4 PDF (3017K)

Article information

DOI: https://doi.org/10.1039/B806577B
Article type: Paper
Submitted: 21 Apr 2008
Accepted: 30 May 2008
First published: 30 Jun 2008

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Org. Biomol. Chem., 2008,6, 3109-3117

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A new mechanism for the Favorskii rearrangement

N. Tsuchida, S. Yamazaki and S. Yamabe, Org. Biomol. Chem., 2008, 6, 3109 DOI: 10.1039/B806577B

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Organic & Biomolecular Chemistry

A new mechanism for the Favorskii rearrangement†

Abstract

Supplementary files

Article information

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A new mechanism for the Favorskii rearrangement

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