Reaction of Mg(3s3p1P1) with a variety of alkyl C–H bonds: Identical initial MgH(X 2Σ+, v=0) rotational quantum state distributions

Abstract

The initial distributions of rotational quantum states of MgH(X ²Σ⁺, v=0) produced in the reaction of electronically excited Mg(3s3p¹P₁) with a variety of hydrocarbons containing alkyl C–H bonds have been found to be identical within experimental error. The distribution is peaked at fairly low values of rotational angular momentum (N≂10). This is in stark contrast to the reaction of Mg(¹P₁) with H₂, where very high rotational excitation is observed and has been ascribed to side‐on attack of the H–H bond. It is proposed that Mg(¹P₁) attacks alkyl C–H bonds directly in a relatively narrow cone of angles around the C–H bond axis and that the strength or location of a particular C–H bond has little effect on the dynamical process. Possible reasons for the differences in H₂ and hydrocarbon as reactants are discussed, and the hydrocarbon results are compared to those reported by Luntz and co‐workers on the reactions of O(³P) and O(¹D₂) with alkyl C–H bonds.