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Time-resolved probing of the iodobenzene C-band using XUV-induced electron transfer dynamics

Time-resolved probing of the iodobenzene C-band using XUV-induced electron transfer dynamics
Time-resolved probing of the iodobenzene C-band using XUV-induced electron transfer dynamics
Time-resolved extreme ultraviolet spectroscopy was used to investigate photodissociation within the iodobenzene C-band. The carbon–iodine bond of iodobenzene was photolyzed at 200 nm, and the ensuing dynamics were probed at 10.3 nm (120 eV) over a 4 ps range. Two product channels were observed and subsequently isolated by using a global fitting method. Their onset times and energetics were assigned to distinct electron transfer dynamics initiated following site-selective ionization of the iodine photoproducts, enabling the electronic states of the phenyl fragments to be identified using a classical over-the-barrier model for electron transfer. In combination with previous theoretical work, this allowed the corresponding neutral photochemistry to be assigned to (1) dissociation via the 7B2, 8A2, and 8B1 states to give ground-state phenyl, Ph(X), and spin–orbit excited iodine and (2) dissociation through the 7A1 and 8B2 states to give excited-state phenyl, Ph(A), and ground-state iodine. The branching ratio was determined to be 87 ± 4% Ph(X) and 13 ± 4% Ph(A). Similarly, the corresponding amount of energy deposited into the internal phenyl modes in these channels was determined to be 44 ± 10 and 65 ± 21%, respectively, and upper bounds to the channel rise times were found to be 114 ± 6 and 310 ± 60 fs.
electron transfer dynamics, extreme ultraviolet spectroscopy, femtochemistry, free electron laser spectroscopy, molecular dynamics, photochemistry, site-selective ionization
2694-2445
Unwin, James
7b425231-53e6-43c9-9b48-f49db7546f9f
Razmus, Weronika O.
33898418-324e-4351-b5f3-c2fe2b6eff96
Allum, Felix
8946af5f-251f-47fb-b336-6eb3a68f2b3c
Minns, Russell S.
85280db4-c5a6-4a4c-82fe-75693c6a6045
Woodhouse, Joanne L.
94d6c235-3e1e-44bc-8379-525862fd382c
et al.
Unwin, James
7b425231-53e6-43c9-9b48-f49db7546f9f
Razmus, Weronika O.
33898418-324e-4351-b5f3-c2fe2b6eff96
Allum, Felix
8946af5f-251f-47fb-b336-6eb3a68f2b3c
Minns, Russell S.
85280db4-c5a6-4a4c-82fe-75693c6a6045
Woodhouse, Joanne L.
94d6c235-3e1e-44bc-8379-525862fd382c

Unwin, James, Razmus, Weronika O., Allum, Felix, Minns, Russell S. and Woodhouse, Joanne L. , et al. (2024) Time-resolved probing of the iodobenzene C-band using XUV-induced electron transfer dynamics. ACS Physical Chemistry Au. (doi:10.1021/acsphyschemau.4c00036).

Record type: Article

Abstract

Time-resolved extreme ultraviolet spectroscopy was used to investigate photodissociation within the iodobenzene C-band. The carbon–iodine bond of iodobenzene was photolyzed at 200 nm, and the ensuing dynamics were probed at 10.3 nm (120 eV) over a 4 ps range. Two product channels were observed and subsequently isolated by using a global fitting method. Their onset times and energetics were assigned to distinct electron transfer dynamics initiated following site-selective ionization of the iodine photoproducts, enabling the electronic states of the phenyl fragments to be identified using a classical over-the-barrier model for electron transfer. In combination with previous theoretical work, this allowed the corresponding neutral photochemistry to be assigned to (1) dissociation via the 7B2, 8A2, and 8B1 states to give ground-state phenyl, Ph(X), and spin–orbit excited iodine and (2) dissociation through the 7A1 and 8B2 states to give excited-state phenyl, Ph(A), and ground-state iodine. The branching ratio was determined to be 87 ± 4% Ph(X) and 13 ± 4% Ph(A). Similarly, the corresponding amount of energy deposited into the internal phenyl modes in these channels was determined to be 44 ± 10 and 65 ± 21%, respectively, and upper bounds to the channel rise times were found to be 114 ± 6 and 310 ± 60 fs.

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unwin-et-al-2024-time-resolved-probing-of-the-iodobenzene-c-band-using-xuv-induced-electron-transfer-dynamics - Version of Record
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Accepted/In Press date: 1 August 2024
e-pub ahead of print date: 10 August 2024
Additional Information: A CC-BY license is applied to the author accepted manuscript arising from this submission, in accordance with UKRI open access conditions.
Keywords: electron transfer dynamics, extreme ultraviolet spectroscopy, femtochemistry, free electron laser spectroscopy, molecular dynamics, photochemistry, site-selective ionization
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Identifiers

Local EPrints ID: 493676
URI: http://eprints.soton.ac.uk/id/eprint/493676
DOI: doi:10.1021/acsphyschemau.4c00036
ISSN: 2694-2445
PURE UUID: c2b58801-78d8-4ff8-a348-b3418eb8767f
ORCID for Russell S. Minns: ORCID iD orcid.org/0000-0001-6775-2977
ORCID for Joanne L. Woodhouse: ORCID iD orcid.org/0000-0002-0771-5362

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Date deposited: 10 Sep 2024 16:49
Last modified: 14 Sep 2024 01:58

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Contributors

Author: James Unwin
Author: Weronika O. Razmus
Author: Felix Allum
Author: Russell S. Minns ORCID iD
Author: Joanne L. Woodhouse ORCID iD
Corporate Author: et al.

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