Nucleophilic assistance in methane activation by superelectrophiles with halogen-centered cationic sites

Author： Chistyakov A. Stankevich I. Gambaryan N. Akhrem I.

ISSN： 1070-4280

Source： Russian Journal of Organic Chemistry, Vol.42, Iss.11, 2006-11, pp. : 1606-1614

Disclaimer: Any content in publications that violate the sovereignty, the constitution or regulations of the PRC is not accepted or approved by CNPIEC.

Previous Menu Next

Abstract

Simulation of fragments of potential energy surface for systems CH₄ + CBr ₃⁺ , CH₄ + CBr ₃⁺ AlBr ₄⁻ , CH₄ + CCl ₃⁺ AlCl ₄⁻ , and CH₄ + CCl ₃⁺ Al₂Cl ₇⁻ was performed by DFT-B3LYP and DFT-PBE methods. The important role of nucleophilic assistance in methane halogenation by these superelectrophiles was confirmed. These reactions occur with a synchronous hydride transfer from methane to the electrophile within the cyclic transition states in linear C-H-C fragment of the rings and a generation of a C-Hlg bond between the carbon atom of the arising methyl group and the halogen atom of the electrophile. The nucleophilic assistance from the unshared electron pair of this halogen atom provides the lowering of the potential barriers to methane halogenation by complexes CBr ₃⁺ AlBr ₄⁻ , CCl ₃⁺ AlCl ₄⁻ , and CCl ₃⁺ Al₂Cl ₇⁻ to the values of the order of 20 kcal mol⁻¹. These essential features of the mechanism of methane halogenation are independent of the halogen nature and are retained on going from the model electrophiles to the real ones.