Formation of H3O+ in the Ionization and Fragmentation of Ethanol Induced by Electron Beam Irradiation

IF 1.1 4区 物理与天体物理 Q4 PHYSICS, APPLIED Laser and Particle Beams Pub Date : 2021-01-20 DOI:10.1155/2021/6616439
Chao Ma, Jiaqi Zhou, Enliang Wang, Tao Yang, Zhongfeng Xu, Shaokui Jia, A. Dorn, X. Ren
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引用次数: 1

Abstract

The single ionization and dissociation of ethanol molecules induced by low-energy electrons ( ) are investigated using multiparticle coincident momentum spectroscopy. By detecting two outgoing electrons ( and ) and one fragment ion in coincidence, we obtain the energy deposition ( ) during electron ionization of the molecule, i.e., the binding energy spectra, for production of the different ionic fragments C2H5OH+, C2H4OH+, COH+, and H3O+. These data allow us to study the ionization channels for different ionic products. In particular, we focus on H3O+ as a product of double hydrogen migration. It is found that this channel mainly originates from the ionization of outer-valance orbitals (3a , 10a , 2a , 9a , 8a , 1a , and 7a ). Additionally, there are minor contributions from the inner-valence orbitals such as 6a , 5a , and 4a . Quantum chemistry calculations show two fragmentation pathways: concerted and sequential processes for formation of H3O+.
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电子束辐照诱导乙醇电离破碎过程中h30 +的形成
利用多粒子重合动量谱研究了低能电子诱导乙醇分子的单电离和解离。通过同时检测两个出射电子(和)和一个离子片段,我们得到了分子在电子电离过程中的能量沉积(),即生成不同离子片段C2H5OH+、C2H4OH+、COH+和h30o +的结合能谱。这些数据使我们能够研究不同离子产物的电离通道。我们特别关注h30 +作为双氢迁移的产物。发现该通道主要来源于外价轨道(3a、10a、2a、9a、8a、1a和7a)的电离。此外,6a、5a和4a等内价轨道也有少量贡献。量子化学计算显示了h30 +形成的两种断裂途径:协同过程和顺序过程。
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来源期刊
Laser and Particle Beams
Laser and Particle Beams PHYSICS, APPLIED-
CiteScore
1.90
自引率
11.10%
发文量
25
审稿时长
1 months
期刊介绍: Laser and Particle Beams is an international journal which deals with basic physics issues of intense laser and particle beams, and the interaction of these beams with matter. Research on pulse power technology associated with beam generation is also of strong interest. Subjects covered include the physics of high energy densities; non-LTE phenomena; hot dense matter and related atomic, plasma and hydrodynamic physics and astrophysics; intense sources of coherent radiation; high current particle accelerators; beam-wave interaction; and pulsed power technology.
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