Litcius/Paper detail

Photodissociation dynamics of methyl vinyl ketone oxide: A four-carbon unsaturated Criegee intermediate from isoprene ozonolysis

Guanghan Wang, Tianlin Liu, Adriana Caracciolo, Michael F. Vansco, Nisalak Trongsiriwat, Patrick J. Walsh, Barbara Marchetti, Tolga N. V. Karsili, Marsha I. Lester

2021The Journal of Chemical Physics19 citationsDOIOpen Access PDF

Abstract

The electronic spectrum of methyl vinyl ketone oxide (MVK-oxide), a four-carbon Criegee intermediate derived from isoprene ozonolysis, is examined on its second π* ← π transition, involving primarily the vinyl group, at UV wavelengths (λ) below 300 nm. A broad and unstructured spectrum is obtained by a UV-induced ground state depletion method with photoionization detection on the parent mass (m/z 86). Electronic excitation of MVK-oxide results in dissociation to O (1D) products that are characterized using velocity map imaging. Electronic excitation of MVK-oxide on the first π* ← π transition associated primarily with the carbonyl oxide group at λ > 300 nm results in a prompt dissociation and yields broad total kinetic energy release (TKER) and anisotropic angular distributions for the O (1D) + methyl vinyl ketone products. By contrast, electronic excitation at λ ≤ 300 nm results in bimodal TKER and angular distributions, indicating two distinct dissociation pathways to O (1D) products. One pathway is analogous to that at λ > 300 nm, while the second pathway results in very low TKER and isotropic angular distributions indicative of internal conversion to the ground electronic state and statistical unimolecular dissociation.

Topics & Concepts

PhotochemistryMethyl vinyl ketoneDissociation (chemistry)IsopreneChemistryPhotodissociationOzonolysisGround stateKetoneExcited statePhysical chemistryAtomic physicsOrganic chemistryPhysicsCatalysisCopolymerPolymerAtmospheric Ozone and ClimateSpectroscopy and Laser ApplicationsAtmospheric chemistry and aerosols