Experimental Evidence for Double Intermolecular Coulombic Decay in Bio-Relevant Molecular Dimers

Xintai Hao; Xiaorui Xue; Jiaqi Zhou; Xinyu Zhang; Xiaokai Li; Qingrui Zeng; Qibo Ma; Yongtao Zhao; Chuncheng Wang; Sizuo Luo; Dajun Ding; Xueguang Ren

doi:10.1103/PhysRevLett.134.033001

Experimental Evidence for Double Intermolecular Coulombic Decay in Bio-Relevant Molecular Dimers

Xintai Hao
, Xiaorui Xue
, Jiaqi Zhou
, Xinyu Zhang
, Xiaokai Li
, Qingrui Zeng
, Qibo Ma
, Yongtao Zhao
, Chuncheng Wang
, Sizuo Luo
, Dajun Ding
, Xueguang Ren

物理学院

Xi'an Jiaotong University
Jilin University

科研成果: 期刊稿件 › 文章 › 同行评审

7 引用（Scopus）

摘要

We report the experimental observation of double intermolecular Coulombic decay (dICD) and reveal its potential for radiation biology in some prototypical molecular dimers consisting of benzene, pyridine, and water. In dICD, the inner-shell vacancy is filled by an electron from an outer shell and the energy released is transferred to doubly ionize the neighboring molecule with the emission of two low-energy electrons. The system further relaxes by a three-body Coulomb explosion process, e.g., CH3++C5H3++C6H6+ for benzene dimer. Through multicoincidence momentum imaging, we find that dICD is an efficient relaxation pathway for the Auger-accessible inner-shell ionization states in molecular complexes. Moreover, this ultrafast decay mechanism causes a direct breaking of the aromatic rings, which is observed to be a general phenomenon occurring in biological systems and thus can play an important role in radiation biology.

源语言	英语
文章编号	033001
期刊	Physical Review Letters
卷	134
期	3
DOI	https://doi.org/10.1103/PhysRevLett.134.033001
出版状态	已出版 - 24 1月 2025

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title = "Experimental Evidence for Double Intermolecular Coulombic Decay in Bio-Relevant Molecular Dimers",

abstract = "We report the experimental observation of double intermolecular Coulombic decay (dICD) and reveal its potential for radiation biology in some prototypical molecular dimers consisting of benzene, pyridine, and water. In dICD, the inner-shell vacancy is filled by an electron from an outer shell and the energy released is transferred to doubly ionize the neighboring molecule with the emission of two low-energy electrons. The system further relaxes by a three-body Coulomb explosion process, e.g., CH3++C5H3++C6H6+ for benzene dimer. Through multicoincidence momentum imaging, we find that dICD is an efficient relaxation pathway for the Auger-accessible inner-shell ionization states in molecular complexes. Moreover, this ultrafast decay mechanism causes a direct breaking of the aromatic rings, which is observed to be a general phenomenon occurring in biological systems and thus can play an important role in radiation biology.",

author = "Xintai Hao and Xiaorui Xue and Jiaqi Zhou and Xinyu Zhang and Xiaokai Li and Qingrui Zeng and Qibo Ma and Yongtao Zhao and Chuncheng Wang and Sizuo Luo and Dajun Ding and Xueguang Ren",

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doi = "10.1103/PhysRevLett.134.033001",

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T1 - Experimental Evidence for Double Intermolecular Coulombic Decay in Bio-Relevant Molecular Dimers

AU - Hao, Xintai

AU - Xue, Xiaorui

AU - Zhou, Jiaqi

AU - Zhang, Xinyu

AU - Li, Xiaokai

AU - Zeng, Qingrui

AU - Ma, Qibo

AU - Zhao, Yongtao

AU - Wang, Chuncheng

AU - Luo, Sizuo

AU - Ding, Dajun

AU - Ren, Xueguang

PY - 2025/1/24

Y1 - 2025/1/24

N2 - We report the experimental observation of double intermolecular Coulombic decay (dICD) and reveal its potential for radiation biology in some prototypical molecular dimers consisting of benzene, pyridine, and water. In dICD, the inner-shell vacancy is filled by an electron from an outer shell and the energy released is transferred to doubly ionize the neighboring molecule with the emission of two low-energy electrons. The system further relaxes by a three-body Coulomb explosion process, e.g., CH3++C5H3++C6H6+ for benzene dimer. Through multicoincidence momentum imaging, we find that dICD is an efficient relaxation pathway for the Auger-accessible inner-shell ionization states in molecular complexes. Moreover, this ultrafast decay mechanism causes a direct breaking of the aromatic rings, which is observed to be a general phenomenon occurring in biological systems and thus can play an important role in radiation biology.

AB - We report the experimental observation of double intermolecular Coulombic decay (dICD) and reveal its potential for radiation biology in some prototypical molecular dimers consisting of benzene, pyridine, and water. In dICD, the inner-shell vacancy is filled by an electron from an outer shell and the energy released is transferred to doubly ionize the neighboring molecule with the emission of two low-energy electrons. The system further relaxes by a three-body Coulomb explosion process, e.g., CH3++C5H3++C6H6+ for benzene dimer. Through multicoincidence momentum imaging, we find that dICD is an efficient relaxation pathway for the Auger-accessible inner-shell ionization states in molecular complexes. Moreover, this ultrafast decay mechanism causes a direct breaking of the aromatic rings, which is observed to be a general phenomenon occurring in biological systems and thus can play an important role in radiation biology.

UR - https://www.scopus.com/pages/publications/85215945611

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SN - 0031-9007

VL - 134

JO - Physical Review Letters

JF - Physical Review Letters

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ER -

Experimental Evidence for Double Intermolecular Coulombic Decay in Bio-Relevant Molecular Dimers

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