‘Multiconfigurational Photodynamics Simulations Reveal the Mechanism of Photodecarbonylations of Cyclopropenones’

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“Gas-evolving photochemical reactions use light and mild conditions to access strained organic compounds irreversibly. Cyclopropenones are a class of light-responsive molecules used in bioorthogonal photoclick reactions; their excited-state decarbonylation reaction mechanisms are misunderstood due to their ultrafast (<100 femtosecond) lifetimes. We have combined multiconfigurational quantum mechanical (QM) calculations and non-adiabatic molecular dynamics (NAMD) simulations to uncover the excited-state mechanism of cyclopropenone and a photoprotected cyclooctyne-(COT)-precursor in gaseous and explicit aqueous environments.”

Find the paper and full list of authors at the Royal Society of Chemistry.

View on Site: ‘Multiconfigurational Photodynamics Simulations Reveal the Mechanism of Photodecarbonylations of Cyclopropenones’

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