Journal
NATURE CHEMISTRY
Volume 14, Issue 12, Pages 1405-+Publisher
NATURE PORTFOLIO
DOI: 10.1038/s41557-022-01047-3
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Funding
- Italian MUR (PRIN 2017) [2017A4XRCA, 2017PJ5XXX]
- Italian MUR (PRIN 2020) [202082CE3T]
- Italian Space Agency [2019-3-U.0]
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This study reveals that intersystem crossing between the pre-reactive complex and the reaction barrier can control the rate of bimolecular reactions for weakly coupled potential energy surfaces, even in the absence of heavy atoms. By conducting crossed-beam experiments and computational simulations, it is found that for the O(P-3) plus pyridine reaction, the main products are pyrrole and CO, obtained through a spin-forbidden ring-contraction mechanism. The reaction rates at low to moderate temperatures are mainly dominated by intersystem crossing.
Two quantum effects can enable reactions to take place at energies below the barrier separating reactants from products: tunnelling and intersystem crossing between coupled potential energy surfaces. Here we show that intersystem crossing in the region between the pre-reactive complex and the reaction barrier can control the rate of bimolecular reactions for weakly coupled potential energy surfaces, even in the absence of heavy atoms. For O(P-3) plus pyridine, a reaction relevant to combustion, astrochemistry and biochemistry, crossed-beam experiments indicate that the dominant products are pyrrole and CO, obtained through a spin-forbidden ring-contraction mechanism. The experimental findings are interpreted-by high-level quantum-chemical calculations and statistical non-adiabatic computations of branching fractions-in terms of an efficient intersystem crossing occurring before the high entrance barrier for 0-atom addition to the N-atom lone pair. At low to moderate temperatures, the computed reaction rates prove to be dominated by intersystem crossing.
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