Abstract
AbstractThe C2─C6/Diels‐Alder cyclization of enyne‐ketoene 1 was studied by experiments, theoretical calculations, and dynamic trajectory computations. The failure to trap possible intermediate(s), indicates a concerted reaction mechanism. A detailed search for stationary points revealed a concerted mechanism and surprisingly a diradical intermediate with no direct connection to the enyne‐ketoene 1. To probe the accessibility of this intermediate quasiclassical trajectories were initiated from the concerted transition state structure. Notably, 36% of the trajectories reach the product zone directly and 5% arrive at the product via the intermediate diradical. Additionally, 31% of the trajectories go to the intermediate zone and stay there within the simulation time limit.
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