Exploring the ultrafast and isomer-dependent photodissociation of iodothiophenes via site-selective ionization

Weronika O. Razmus; Felix Allum; James Harries; Yoshiaki Kumagai; Kiyonobu Nagaya; Surjendu Bhattacharyya; Mathew Britton; Mark Brouard; Philip H. Bucksbaum; Kieran Cheung; Stuart W. Crane; Mizuho Fushitani; Ian Gabalski; Tatsuo Gejo; Aaron Ghrist; David Heathcote; Yasumasa Hikosaka; Akiyoshi Hishikawa; Paul Hockett; Ellen Jones; Edwin Kukk; Hiroshi Iwayama; Huynh V.S. Lam; Joseph W. McManus; Dennis Milesevic; Jochen Mikosch; Shinichirou Minemoto; Akinobu Niozu; Andrew J. Orr-Ewing; Shigeki Owada; Daniel Rolles; Artem Rudenko; Dave Townsend; Kiyoshi Ueda; James Unwin; Claire Vallance; Anbu Venkatachalam; Shin Ichi Wada; Tiffany Walmsley; Emily M. Warne; Joanne L. Woodhouse; Michael Burt; Michael N.R. Ashfold; Russell S. Minns; Ruaridh Forbes

doi:10.1039/d3cp06079a

Exploring the ultrafast and isomer-dependent photodissociation of iodothiophenes via site-selective ionization

Weronika O. Razmus, Felix Allum, James Harries, Yoshiaki Kumagai, Kiyonobu Nagaya, Surjendu Bhattacharyya, Mathew Britton, Mark Brouard, Philip H. Bucksbaum, Kieran Cheung, Stuart W. Crane, Mizuho Fushitani, Ian Gabalski, Tatsuo Gejo, Aaron Ghrist, David Heathcote, Yasumasa Hikosaka, Akiyoshi Hishikawa, Paul Hockett, Ellen JonesEdwin Kukk, Hiroshi Iwayama, Huynh V.S. Lam, Joseph W. McManus, Dennis Milesevic, Jochen Mikosch, Shinichirou Minemoto, Akinobu Niozu, Andrew J. Orr-Ewing, Shigeki Owada, Daniel Rolles, Artem Rudenko, Dave Townsend, Kiyoshi Ueda, James Unwin, Claire Vallance, Anbu Venkatachalam, Shin Ichi Wada, Tiffany Walmsley, Emily M. Warne, Joanne L. Woodhouse, Michael Burt, Michael N.R. Ashfold, Russell S. Minns^*, Ruaridh Forbes^*

^*この論文の責任著者

教養教育学系

研究成果: ジャーナルへの寄稿 › 学術論文 › 査読

2 被引用数 (Scopus)

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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.

本文言語	英語
ページ（範囲）	12725-12737
ページ数	13
ジャーナル	Physical Chemistry Chemical Physics
巻	26
号	16
DOI	https://doi.org/10.1039/d3cp06079a
出版ステータス	出版済み - 2024/04/05

ASJC Scopus 主題領域

物理学および天文学一般
物理化学および理論化学

文献へのアクセス

10.1039/d3cp06079a

引用スタイル

Razmus, W. O., Allum, F., Harries, J., Kumagai, Y., Nagaya, K., Bhattacharyya, S., Britton, M., Brouard, M., Bucksbaum, P. H., Cheung, K., Crane, S. W., Fushitani, M., Gabalski, I., Gejo, T., Ghrist, A., Heathcote, D., Hikosaka, Y., Hishikawa, A., Hockett, P., ... Forbes, R. (2024). Exploring the ultrafast and isomer-dependent photodissociation of iodothiophenes via site-selective ionization. Physical Chemistry Chemical Physics, 26(16), 12725-12737. https://doi.org/10.1039/d3cp06079a

@article{dc365e9f396642fa813afead51645e2b,

title = "Exploring the ultrafast and isomer-dependent photodissociation of iodothiophenes via site-selective ionization",

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 {\textquoteleft}direct{\textquoteright} and {\textquoteleft}indirect{\textquoteright} 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.",

author = "Razmus, {Weronika O.} and Felix Allum and James Harries and Yoshiaki Kumagai and Kiyonobu Nagaya and Surjendu Bhattacharyya and Mathew Britton and Mark Brouard and Bucksbaum, {Philip H.} and Kieran Cheung and Crane, {Stuart W.} and Mizuho Fushitani and Ian Gabalski and Tatsuo Gejo and Aaron Ghrist and David Heathcote and Yasumasa Hikosaka and Akiyoshi Hishikawa and Paul Hockett and Ellen Jones and Edwin Kukk and Hiroshi Iwayama and Lam, {Huynh V.S.} and McManus, {Joseph W.} and Dennis Milesevic and Jochen Mikosch and Shinichirou Minemoto and Akinobu Niozu and Orr-Ewing, {Andrew J.} and Shigeki Owada and Daniel Rolles and Artem Rudenko and Dave Townsend and Kiyoshi Ueda and James Unwin and Claire Vallance and Anbu Venkatachalam and Wada, {Shin Ichi} and Tiffany Walmsley and Warne, {Emily M.} and Woodhouse, {Joanne L.} and Michael Burt and Ashfold, {Michael N.R.} and Minns, {Russell S.} and Ruaridh Forbes",

note = "Publisher Copyright: {\textcopyright} 2024 The Royal Society of Chemistry",

year = "2024",

month = apr,

day = "5",

doi = "10.1039/d3cp06079a",

language = "英語",

volume = "26",

pages = "12725--12737",

journal = "Physical Chemistry Chemical Physics",

issn = "1463-9076",

publisher = "Royal Society of Chemistry",

number = "16",

}

Razmus, WO, Allum, F, Harries, J, Kumagai, Y, Nagaya, K, Bhattacharyya, S, Britton, M, Brouard, M, Bucksbaum, PH, Cheung, K, Crane, SW, Fushitani, M, Gabalski, I, Gejo, T, Ghrist, A, Heathcote, D, Hikosaka, Y, Hishikawa, A, Hockett, P, Jones, E, Kukk, E, Iwayama, H, Lam, HVS, McManus, JW, Milesevic, D, Mikosch, J, Minemoto, S, Niozu, A, Orr-Ewing, AJ, Owada, S, Rolles, D, Rudenko, A, Townsend, D, Ueda, K, Unwin, J, Vallance, C, Venkatachalam, A, Wada, SI, Walmsley, T, Warne, EM, Woodhouse, JL, Burt, M, Ashfold, MNR, Minns, RS & Forbes, R 2024, 'Exploring the ultrafast and isomer-dependent photodissociation of iodothiophenes via site-selective ionization', Physical Chemistry Chemical Physics, vol. 26, no. 16, pp. 12725-12737. https://doi.org/10.1039/d3cp06079a

TY - JOUR

T1 - Exploring the ultrafast and isomer-dependent photodissociation of iodothiophenes via site-selective ionization

AU - Razmus, Weronika O.

AU - Allum, Felix

AU - Harries, James

AU - Kumagai, Yoshiaki

AU - Nagaya, Kiyonobu

AU - Bhattacharyya, Surjendu

AU - Britton, Mathew

AU - Brouard, Mark

AU - Bucksbaum, Philip H.

AU - Cheung, Kieran

AU - Crane, Stuart W.

AU - Fushitani, Mizuho

AU - Gabalski, Ian

AU - Gejo, Tatsuo

AU - Ghrist, Aaron

AU - Heathcote, David

AU - Hikosaka, Yasumasa

AU - Hishikawa, Akiyoshi

AU - Hockett, Paul

AU - Jones, Ellen

AU - Kukk, Edwin

AU - Iwayama, Hiroshi

AU - Lam, Huynh V.S.

AU - McManus, Joseph W.

AU - Milesevic, Dennis

AU - Mikosch, Jochen

AU - Minemoto, Shinichirou

AU - Niozu, Akinobu

AU - Orr-Ewing, Andrew J.

AU - Owada, Shigeki

AU - Rolles, Daniel

AU - Rudenko, Artem

AU - Townsend, Dave

AU - Ueda, Kiyoshi

AU - Unwin, James

AU - Vallance, Claire

AU - Venkatachalam, Anbu

AU - Wada, Shin Ichi

AU - Walmsley, Tiffany

AU - Warne, Emily M.

AU - Woodhouse, Joanne L.

AU - Burt, Michael

AU - Ashfold, Michael N.R.

AU - Minns, Russell S.

AU - Forbes, Ruaridh

PY - 2024/4/5

Y1 - 2024/4/5

N2 - 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.

AB - 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.

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U2 - 10.1039/d3cp06079a

DO - 10.1039/d3cp06079a

M3 - 学術論文

C2 - 38616653

AN - SCOPUS:85190593683

SN - 1463-9076

VL - 26

SP - 12725

EP - 12737

JO - Physical Chemistry Chemical Physics

JF - Physical Chemistry Chemical Physics

IS - 16

ER -

Exploring the ultrafast and isomer-dependent photodissociation of iodothiophenes via site-selective ionization

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