Revisiting CN^- Formation Mechanisms in Electron Collisions with Benzonitrile.

IF 2.2 3区化学 Q3 CHEMISTRY, PHYSICAL

Chemphyschem Pub Date : 2025-09-28 DOI:10.1002/cphc.202500206

Rodrigo Rodrigues, Mónica Mendes, Daniel Bou-Debes, João Ameixa, Ali Kamali, Oddur Ingólfsson, Samuel Eden, Lucas M Cornetta, Filipe Ferreira da Silva

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引用次数: 0

Abstract

Radiation-induced processes in the aromatic cyano compound benzonitrile have attracted renewed interest since its detection in the interstellar medium in 2018, and recent studies have elucidated dissociative ionization pathways leading to species such as CN^• and HCN, which can play important roles in interstellar chemistry. This work explores negative ion formation from benzonitrile upon electron attachment with mass spectrometry experiments and the most extensive theoretical study to date of the underlying negative ion states and their respective dissociative relaxation pathways. The measurements confirm the previously reported CN^- formation at a collision energy of 3.0 eV as well as formation of the dehydrogenated parent anion and phenyl anion and CN^- formation in the 7-10 eV energy range. Threshold energies for these dissociation channels are reported at the G4(MP2) level of theory for the first time. Furthermore, by using both scattering calculations and bound state techniques, CN^- formation at around 3.0 eV may proceed from a ²B₁, π₄* shape resonance through nonadiabatic coupling with the σ*, CCN state. In the 7-10 eV range, complete active space plus second-order perturbation (CASPT2) calculations suggest strong contributions from core excited π₄* and σ* resonances.

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苯并腈电子碰撞中CN-形成机制的再探讨。

自2018年在星际介质中发现芳香族氰基化合物苯腈以来，辐射诱导的过程引起了人们的重新关注，最近的研究已经阐明了导致CN•和HCN等物质的解离电离途径，这些物质在星际化学中起着重要作用。这项工作通过质谱实验探索了苯腈在电子附着时形成的负离子，并对潜在的负离子状态及其各自的解离弛豫途径进行了迄今为止最广泛的理论研究。测量结果证实了先前报道的碰撞能量为3.0 eV时CN-的形成，以及脱氢母离子和苯基阴离子的形成和7-10 eV能量范围内CN-的形成。这些解离通道的阈值能量首次在理论的G4（MP2）水平上被报道。此外，利用散射计算和束缚态技术，在3.0 eV附近，CN-的形成可能是通过与σ*， C - CN态的非绝热耦合，从2B1， π4*形状共振进行的。在7 ~ 10 eV范围内，完全有源空间加二阶微扰（CASPT2）计算表明，磁芯激发π4*和σ*共振对电子的贡献很大。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Chemphyschem 化学-物理：原子、分子和化学物理

CiteScore

4.60

自引率

3.40%

发文量

425

审稿时长

1.1 months

期刊介绍： ChemPhysChem is one of the leading chemistry/physics interdisciplinary journals (ISI Impact Factor 2018: 3.077) for physical chemistry and chemical physics. It is published on behalf of Chemistry Europe, an association of 16 European chemical societies. ChemPhysChem is an international source for important primary and critical secondary information across the whole field of physical chemistry and chemical physics. It integrates this wide and flourishing field ranging from Solid State and Soft-Matter Research, Electro- and Photochemistry, Femtochemistry and Nanotechnology, Complex Systems, Single-Molecule Research, Clusters and Colloids, Catalysis and Surface Science, Biophysics and Physical Biochemistry, Atmospheric and Environmental Chemistry, and many more topics. ChemPhysChem is peer-reviewed.