Reactions of ground-state Ti+ and V+ with propane: Factors that govern C-H and C-C bond cleavage product branching ratios
1998
Reactions of Ti+ and V+ with C3H8, CH3CD2CH3, CD3CH2CD3, and C3D8 are studied to characterize the rate-limiting transition states and determine the factors that control the branching between H2 and CH4 elimination. For ground-state Ti+ reacting with propane, dehydrogenation and demethanation both occur at thermal energy with reaction efficiencies of 17% and less than 1%, respectively. For ground-state V+, dehydrogenation occurs at thermal energy with an efficiency of less than 1% whereas demethanation occurs with a 0.70 ± 0.06 eV threshold. Deuterium-labeling studies indicate that β-H(D) transfer to form the metal ethene dihydride complex or a multicenter elimination of H2 is the rate-limiting step for dehydrogenation, while reductive elimination of methane is shown to be rate limiting for demethanation. The product kinetic energy release distributions (KERDs) for H2 loss from Ti+(C3H8) and V+(C3H8) are both statistical. Modeling the experimental KERDs using statistical phase space theory yields D0°(Ti+−C...
Keywords:
- Correction
- Source
- Cite
- Save
- Machine Reading By IdeaReader
39
References
55
Citations
NaN
KQI