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DOI: 10.1039/A809693G (Paper) Reference Section for: Phys. Chem. Chem. Phys., 1999, 1, 767-772

Ultraviolet photolysis of formyl fluoride: the F+HCO product channel

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Christof Maul, Christoph Dietrich, Tobias Haas, Karl-Heinz Gericke, Hiroto Tachikawa, Stephen R. Langford, Mitsuhiko Kono, Claire L. Reed, Richard N. Dixon and Michael N. R. Ashfold

Abstract

The time-of-flight spectrum of the H atoms resulting from photodissociation of gas phase HFCO molecules at 243.12 nm indicates a role for secondary photolysis of HCO([X with combining tilde]) fragments arising via the F+HCO([X with combining tilde]) dissociation channel. Analysis of this spectrum, and of earlier photofragment translational spectroscopy results obtained at a number of neighbouring wavelengths in the range 218.4–248.2 nm, allow estimation of an upper limit for the C–F bond dissociation energy: D0(F–CHO)⩽482 kJ mol-1. HCO([X with combining tilde]) fragments are deduced to be amongst the primary products of HFCO photolysis at all wavelengths λ⩽248.2 nm, indicating that any energy barrier in the F–C bond fission channel [measured relative to the asymptotic products F(2P)+HCO([X with combining tilde])] must be small. This observation is considered in the light of available knowledge regarding the potential energy surfaces for the ground ([X with combining tilde]1A′) and first excited singlet (Ã1A″) and triplet (ã3A″) states of HFCO; the available evidence all points to radiationless transfer and subsequent dissociation on the triplet surface as the mechanism for the deduced F–C bond fission.

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