Femtosecond Real-Time Fragmentation Dynamics of Nitrobenzene Anion Reveal the Dissociative Electron Attachment Mechanism
IF 7.6
1区 化学
Q1 CHEMISTRY, MULTIDISCIPLINARY
引用次数: 0
Abstract
The femtosecond real-time dynamics of the nitrobenzene anion (C₆H₅NO₂⁻) in the excited state have been investigated using a recently developed time-resolved photofragment depletion (TRPD) spectroscopic technique, providing molecular-level insight into the C–N bond dissociation pathway leading to ·C₆H₅ and NO₂⁻ fragments for the first time. Ultrafast electronic relaxation from the D₂ state, prepared at 2.48 eV, to the ground state (D₀) is followed by statistical unimolecular dissociation, yielding NO₂⁻ with a lifetime (τ) of approximately 294 ps. This behavior stands in stark contrast to the prompt bond rupture typically observed in conventional dissociative electron attachment (DEA) processes, offering deep insight into the energy flow that governs anionic bond dissociation following electron–molecule collisions.硝基苯阴离子飞秒实时碎片动力学揭示解离电子附着机理
利用最近开发的时间分辨率光片段耗尽(TRPD)光谱技术,研究了硝基苯阴离子(C₆H₅NO 2⁻)在兴奋状态下的飞秒实时动力学,首次提供了对导致·C₆H₅和NO 2⁻碎片的C - n键解离途径的分子水平的见解。从2.48 eV制备的D₂态到基态(D 0)的超快电子弛豫随后是统计单分子解离,产生NO₂⁻,寿命(τ)约为294 ps。这种行为与传统解离电子附着(DEA)过程中通常观察到的迅速键断裂形成强烈对比,提供了对电子-分子碰撞后支配阴离子键解离的能量流的深刻见解。
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来源期刊
Chemical Science
CHEMISTRY, MULTIDISCIPLINARY-
CiteScore
14.40
自引率
4.80%
发文量
1352
审稿时长
2.1 months
期刊介绍:
Chemical Science is a journal that encompasses various disciplines within the chemical sciences. Its scope includes publishing ground-breaking research with significant implications for its respective field, as well as appealing to a wider audience in related areas. To be considered for publication, articles must showcase innovative and original advances in their field of study and be presented in a manner that is understandable to scientists from diverse backgrounds. However, the journal generally does not publish highly specialized research.
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