Blueshift of the CN stretching vibration of acetonitrile in solution: computational and experimental study

IF 3.4 3区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY Journal of Computational Chemistry Pub Date : 2024-06-20 DOI:10.1002/jcc.27452
Francesco Muniz-Miranda, Alfonso Pedone, Maria Cristina Menziani
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Abstract

Acetonitrile, a polar molecule that cannot form hydrogen bonds on its own, interacts with solvent molecules mainly through the lone pair of its nitrogen atom and the π electrons of its CN triple bond [Correction added on 17 July 2024, after first online publication: Acetole has been changed to Acetonitrile in the preceeding sentence.]. Interestingly, acetonitrile exhibits an unexpected strengthening of the triple bond's force constant in an aqueous environment, leading to an upshift (blueshift) in the corresponding stretching vibration: this effect contrasts with the usual consequence of hydrogen bonding on the vibrational frequencies of the acceptor groups, that is, frequency redshift. This investigation elucidates this phenomenon using Raman spectroscopy to examine the behavior of acetonitrile in organic solvent, water, and silver ion aqueous solutions, where an even more pronounced upshift is observed. Raman spectroscopy is particularly well suited for analyzing aqueous solutions due to the minimal scattering effect of water molecules across most of the vibrational spectrum. Computational approaches, both static and dynamical, based on Density Functional Theory and hybrid functionals, are employed here to interpret these findings, and accurately reproduce the vibrational frequencies of acetonitrile in different environments. Our calculations also allow an explanation for this unique behavior in terms of electric charge displacements. On the other hand, the study of the interaction of acetonitrile with water molecules and metal ions is relevant for the use of this molecule as a solvent in both chemical and pharmaceutical applications.

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溶液中乙腈 CN 伸展振动的蓝移:计算和实验研究
乙酰胆碱是一种自身不能形成氢键的极性分子,它主要通过氮原子的孤对子和 CN 三键的π 电子与溶剂分子相互作用。有趣的是,乙腈在水环境中意外地增强了三键的力常数,导致相应的伸缩振动发生上移(蓝移):这种效应与氢键对受体基团振动频率的通常影响(即频率红移)形成鲜明对比。本研究利用拉曼光谱阐明了这一现象,研究了乙腈在有机溶剂、水和银离子水溶液中的行为,在这些溶液中观察到了更明显的上移。拉曼光谱特别适合分析水溶液,因为水分子对大部分振动光谱的散射效应极小。这里采用了基于密度泛函理论和混合函数的静态和动态计算方法来解释这些发现,并准确地再现了乙腈在不同环境中的振动频率。我们的计算还可以从电荷位移的角度解释这种独特的行为。另一方面,研究乙腈与水分子和金属离子的相互作用与将这种分子用作化学和医药应用中的溶剂息息相关。
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来源期刊
CiteScore
6.60
自引率
3.30%
发文量
247
审稿时长
1.7 months
期刊介绍: This distinguished journal publishes articles concerned with all aspects of computational chemistry: analytical, biological, inorganic, organic, physical, and materials. The Journal of Computational Chemistry presents original research, contemporary developments in theory and methodology, and state-of-the-art applications. Computational areas that are featured in the journal include ab initio and semiempirical quantum mechanics, density functional theory, molecular mechanics, molecular dynamics, statistical mechanics, cheminformatics, biomolecular structure prediction, molecular design, and bioinformatics.
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