Issue 18, 2022

Accounting for molecular flexibility in photoionization: case of tert-butyl hydroperoxide

Abstract

tert-Butyl hydroperoxide (tBuOOH) is a common intermediate in the oxidation of organic compounds that needs to be accurately quantified in complex gas mixtures for the development of chemical kinetic models of low temperature combustion. This work presents a combined theoretical and experimental investigation on the synchrotron-based VUV single photon ionization of gas-phase tBuOOH in the 9.0 - 11.0 eV energy range, including dissociative ionization processes. Computations consist of the determination of the structures, vibrational frequencies and the energetics of neutral and ionic tBuOOH. The Franck–Condon spectrum for the tBuOOH+ (X+) + etBuOOH (X) + transition is computed, where special treatment is undertaken because of the flexibility of tBuOOH, in particular regarding the OOH group. Through comparison of the experimental mass-selected threshold photoelectron spectra with explicitly correlated coupled cluster calculations and Franck–Condon simulations that account for the flexibility of the molecule, an estimation of the ionization energy is given. The appearance energy of the only fragment observed within the above-mentioned energy range, identified as the tert-butyl C4H9+, is also reported. Finally, the signal branching ratio between the parent and the fragment ions is provided as a function of photon energy, essential to quantify tBuOOH in gas-phase oxidation/combustion experiments via advanced mass spectrometry techniques.

Graphical abstract: Accounting for molecular flexibility in photoionization: case of tert-butyl hydroperoxide

Supplementary files

Article information

Article type
Paper
Submitted
24 ဖေ 2022
Accepted
13 ဧပြီ 2022
First published
14 ဧပြီ 2022

Phys. Chem. Chem. Phys., 2022,24, 10826-10837

Accounting for molecular flexibility in photoionization: case of tert-butyl hydroperoxide

J. Bourgalais, Z. Jiang, J. Bloino, O. Herbinet, H. Carstensen, G. A. Garcia, P. Arnoux, L. Tran, G. Vanhove, L. Nahon, F. Battin-Leclerc and M. Hochlaf, Phys. Chem. Chem. Phys., 2022, 24, 10826 DOI: 10.1039/D2CP00929C

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