Abstract

The triplet acetylene–vinylidene potential energy surface was explored with the complete basis set, G1, G2, and G2MP2 ab initio methods, as well as with the hybrid, gradient-corrected, and local spin approximation density functional methods to explore the possibility of triplet acetylene transformation in metastable vinylidene. For stationary points (triplet trans-acetylene, triplet cis-acetylene, H and CCH radicals, and triplet vinylidene) in their minima with several transition state structures that combine this minima were located on the potential energy surface. It was estimated that a global minima on the potential energy surface is the triplet cis-acetylene. Even if the triplet trans-acetylene is formed by excitation of the singlet acetylene, it should be transferred into the more stable triplet cis-acetylene without barrier. Triplet cis-acetylene and triplet vinylidene have almost identical stabilities, but the activation barrier for the formation of triplet vinylidene from triplet cis-acetylene through the 1,2-hydrogen shift is estimated to be 50.4kcal/mol. The C–H dissociation–recombination mechanism for the triplet cis-acetylene transformation into triplet vinylidene is even higher, suggesting that direct transformation of acetylene into vinylidene through acetylene excitation and then relaxing the formed products should not be an energetically preferable path. Detailed analysis of the triplet acetylene–vinylidene potential energy surface with both the ab initio and density functional theory methods were discussed.

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