Exploring the ultrafast and isomer-dependent photodissociation of iodothiophenes via site-selective ionization
Exploring the ultrafast and isomer-dependent photodissociation of iodothiophenes via site-selective ionization
C–I bond extension and fission following ultraviolet (UV, 262 nm) photoexcitation of 2- and 3-iodothiophene is studied using ultrafast time-resolved extreme ultraviolet (XUV) ionization in conjunction with velocity map ion imaging. The photoexcited molecules and eventual I atom products are probed by site-selective ionization at the I 4d edge using intense XUV pulses, which induce multiple charges initially localized to the iodine atom. At C-I separations below the critical distance for charge transfer (CT), charge can redistribute around the molecule leading to Coulomb explosion and charged fragments with high kinetic energy. At greater C-I separations, beyond the critical distance, CT is no longer possible and the measured kinetic energies of the charged iodine atoms report on the neutral dissociation process. The time and momentum resolved measurements allow determination of the timescales and the respective product momentum and kinetic energy distributions for both isomers, which are interpreted in terms of rival ‘direct’ and ‘indirect’ dissociation pathways. The measurements are compared with a classical over the barrier model, which reveals that the onset of the indirect dissociation process is delayed by ∼ 1 ps relative to the direct process. The kinetics of the two processes show no discernible difference between the two parent isomers, but the branching between the direct and indirect dissociation channels and the respective product momentum distributions show isomer dependencies. The greater relative yield of indirect dissociation products from 262 nm photolysis of 3-iodothiophene (cf. 2-iodothiophene) is attributed to the different partial cross-sections for (ring-centred) π∗ ← π and (C-I bond localized) σ∗ ← (n/π) excitation in the respective parent isomers.
12725-12737
Razmus, Weronika
33898418-324e-4351-b5f3-c2fe2b6eff96
Allum, Felix
8946af5f-251f-47fb-b336-6eb3a68f2b3c
Harries, James
1ff86213-03f3-4d57-80ac-153cdb8e16d4
Woodhouse, Jo
94d6c235-3e1e-44bc-8379-525862fd382c
Minns, Russell
85280db4-c5a6-4a4c-82fe-75693c6a6045
24 April 2024
Razmus, Weronika
33898418-324e-4351-b5f3-c2fe2b6eff96
Allum, Felix
8946af5f-251f-47fb-b336-6eb3a68f2b3c
Harries, James
1ff86213-03f3-4d57-80ac-153cdb8e16d4
Woodhouse, Jo
94d6c235-3e1e-44bc-8379-525862fd382c
Minns, Russell
85280db4-c5a6-4a4c-82fe-75693c6a6045
Razmus, Weronika, Allum, Felix and Harries, James
,
et al.
(2024)
Exploring the ultrafast and isomer-dependent photodissociation of iodothiophenes via site-selective ionization.
Physical Chemistry Chemical Physics, 26 (16), .
(doi:10.1039/D3CP06079A).
Abstract
C–I bond extension and fission following ultraviolet (UV, 262 nm) photoexcitation of 2- and 3-iodothiophene is studied using ultrafast time-resolved extreme ultraviolet (XUV) ionization in conjunction with velocity map ion imaging. The photoexcited molecules and eventual I atom products are probed by site-selective ionization at the I 4d edge using intense XUV pulses, which induce multiple charges initially localized to the iodine atom. At C-I separations below the critical distance for charge transfer (CT), charge can redistribute around the molecule leading to Coulomb explosion and charged fragments with high kinetic energy. At greater C-I separations, beyond the critical distance, CT is no longer possible and the measured kinetic energies of the charged iodine atoms report on the neutral dissociation process. The time and momentum resolved measurements allow determination of the timescales and the respective product momentum and kinetic energy distributions for both isomers, which are interpreted in terms of rival ‘direct’ and ‘indirect’ dissociation pathways. The measurements are compared with a classical over the barrier model, which reveals that the onset of the indirect dissociation process is delayed by ∼ 1 ps relative to the direct process. The kinetics of the two processes show no discernible difference between the two parent isomers, but the branching between the direct and indirect dissociation channels and the respective product momentum distributions show isomer dependencies. The greater relative yield of indirect dissociation products from 262 nm photolysis of 3-iodothiophene (cf. 2-iodothiophene) is attributed to the different partial cross-sections for (ring-centred) π∗ ← π and (C-I bond localized) σ∗ ← (n/π) excitation in the respective parent isomers.
Text
CEI_iodothiophene_Updated
- Accepted Manuscript
More information
Accepted/In Press date: 27 March 2024
e-pub ahead of print date: 5 April 2024
Published date: 24 April 2024
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Publisher Copyright:
© 2024 The Royal Society of Chemistry
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Local EPrints ID: 488954
URI: http://eprints.soton.ac.uk/id/eprint/488954
ISSN: 1463-9076
PURE UUID: 0fc088fc-710a-4038-8551-d6a274ce2fa4
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Date deposited: 09 Apr 2024 17:19
Last modified: 28 Aug 2024 01:57
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Contributors
Author:
Weronika Razmus
Author:
Felix Allum
Author:
James Harries
Author:
Jo Woodhouse
Corporate Author: et al.
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