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| 间-吡啶基紫外光化学中的氢原子解离通道 | |
| 引用本文: | Michael Lucas,;Jasmine Minor,;张劲松,;Christopher Brazier. 间-吡啶基紫外光化学中的氢原子解离通道[J]. 化学物理学报(中文版), 2014, 27(6): 621-627. DOI: 10.1063/1674-0068/27/06/621-627 |
| 作者姓名: | Michael Lucas, Jasmine Minor, 张劲松, Christopher Brazier |
| 作者单位: | [1]美国加州大学河滨分校化学系,河滨92521; [2]美国加州州立大学长滩分校化学和生物化学系,长滩90840; [3]美国加州大学河滨分校空气污染研究中心,河滨92521 |
| 基金项目: | This work was supported by the US National Science Foundation (CHE-1214157). Jasmine Minor acknowledges the support from the UC Riverside HSI-STEM Summer Bridge to Research Program and the Summer Research in Science and Engineering [RISE] Program. |
| 摘 要: | 利用高里德堡态氢原子飞行时间探测技术, 在224~248 nm激发波长研究了间-吡啶基紫外光化学中的氢原子解离通道的动力学过程.氢原子光解碎片产率谱显示在234 nm附近有较宽的吸收.产物的平动能释放较小;在224~248 nm激发波长区间平均〈 fT〉是0.12~0.19.产物的平动能分布显示产物是H+HC≡C-CH=CH-C≡N,H 3,4-吡啶和H 2,3-吡啶,以H HC≡C-CH=CH-C≡N为主要的氢原子生成通道.氢原子碎片具有各向同性的角度分布.研究结果表明,在紫外电子态激发以后,间-吡啶基经过内转换到电子基态,再经由单分子解离到H HC≡C-CH=CH-C≡N,H 3,4-吡啶和H 2,3-吡啶产物.间-吡啶基的紫外光解机理和以前报道过的邻-吡啶基的紫外光解机理相似. |
| 关 键 词: | 光解 光碎片 吡啶基 吡啶 解离 激发碴 |
| 收稿时间: | 2014-09-08 |
H-atom Dissociation Channels in Ultraviolet Photochemistry of m-Pyridyl Radical |
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| Michael Lucas,Jasmine Minor,Jingsong Zhang,Christopher Brazier. H-atom Dissociation Channels in Ultraviolet Photochemistry of m-Pyridyl Radical[J]. Chinese Journal of Chemical Physics, 2014, 27(6): 621-627. DOI: 10.1063/1674-0068/27/06/621-627 | |
| Authors: | Michael Lucas Jasmine Minor Jingsong Zhang Christopher Brazier |
| Affiliation: | 1.Department of Chemistry, University of California, Riverside, CA 92521, USA2.Department of Chemistry, University of California, Riverside, CA 92521, USA;Air Pollution Research Center, University of California, Riverside, CA 92521, USA3.Department of Chemistry and Biochemistry, California State University, Long Beach, CA 90840, USA |
| Abstract: | The H atom production channels in the ultraviolet (UV) photochemistry of m-pyridyl radical (m-C5H4N) were investigated at excitation wavelengths from 224 nm to 248 nm by high-n Rydberg atom time-of-flight (HRTOF) technique. The photofragment yield (PFY) spectrum of the H atoms indicates a broad UV absorption feature near 234 nm. The product kinetic energy release is small; the average product kinetic energy at the wavelengths from 224 nm to 248 nm is 0.12 to 0.19 of the maximum excess energy (assuming the lowest energy product channel, H+cyanovinylacetylene). The product kinetic energy distributions are consistent with the H cyanovinylacetylene, H 3,4-pyridyne, and H 2,3-pyridyne product channels, with H cyanovinylacetylene as the main H-loss channel. The angular distributions of the H-atom products are isotropic. After the UV electronic excitation, the m-pyridyl radical undergoes internal conversion to the ground electronic state and then unimolecular dissoci-ation to the H cyanovinylacetylene, H 3,4-pyridyne, and H 2,3-pyridyne products. The dissociation mechanism of the m-pyridyl radical is similar to that of the o-pyridyl radical reported in the early study. |
| Keywords: | Photolysis Photofragment Pyridyl Pyridine Decomposition Excited state |
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