Issue 42, 2022

Halide–propene complexes: validated DSD-PBEP86-D3BJ calculations and photoelectron spectroscopy

Abstract

Anion photoelectron spectroscopy has been used to determine the electron binding energies of the X⋯C3H6 (X = Cl, Br, I) complexes. To complement the experimental spectra the DSD-PBEP86-D3BJ functional has been employed, following comparison with previously calculated halide/halogen-molecule van der Waals complexes. To validate the functional, comparison between the complex geometries and vertical detachment energies with both experimental and CCSD(T)/CBS data for a suite of halide–molecule complexes is also made. PES spectra determine the electron binding energies as 3.89 eV and 4.00 eV, 3.59 eV and 4.01 eV, and 3.26 eV and 4.20 eV for transitions to perturbed 2P states of the chlorine, bromine and iodine complexes respectively. Two contributing structures resulting in the photoelectron spectrum are those where the halide is coordinated by two hydrogens, each from a terminal carbon in C3H6, and when bifurcating the C[double bond, length as m-dash]C bond. These complexes are distinct from the corresponding halide–ethene complexes and represent potential entry pathways to haloakyl radical formation in atmospheric and extraterrestrial environments.

Graphical abstract: Halide–propene complexes: validated DSD-PBEP86-D3BJ calculations and photoelectron spectroscopy

Supplementary files

Article information

Article type
Paper
Submitted
17 ⵖⵓⵛ 2022
Accepted
10 ⴽⵜⵓ 2022
First published
15 ⴽⵜⵓ 2022

Phys. Chem. Chem. Phys., 2022,24, 25842-25852

Halide–propene complexes: validated DSD-PBEP86-D3BJ calculations and photoelectron spectroscopy

P. D. Watson, T. R. Corkish, C. T. Haakansson, A. J. McKinley and D. A. Wild, Phys. Chem. Chem. Phys., 2022, 24, 25842 DOI: 10.1039/D2CP03796C

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