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通过理论与实验的相互作用对卤代污染物的光谱特性进行表征:在 R1122 中的应用。

The Spectroscopic Characterization of Halogenated Pollutants through the Interplay between Theory and Experiment: Application to R1122.

机构信息

Dipartimento di Scienze Molecolari e Nanosistemi, Università Ca' Foscari Venezia, Via Torino 155, I-30172 Mestre, Italy.

Scuola Normale Superiore, Piazza dei Cavalieri 7, I-56126 Pisa, Italy.

出版信息

Molecules. 2022 Jan 24;27(3):748. doi: 10.3390/molecules27030748.

Abstract

In the last decade, halogenated ethenes have seen an increasing interest for different applications; in particular, in refrigeration, air-conditioning and heat pumping. At the same time, their adverse effects as atmospheric pollutants require environmental monitoring, especially by remote sensing spectroscopic techniques. For this purpose, an accurate characterization of the spectroscopic fingerprint-in particular, those of relevance for rotational-vibrational spectroscopy-of the target molecules is strongly needed. This work provides an integrated computational-theoretical investigation on R1122 (2-Chloro-1,1-difluoro-ethylene, ClHC=CF2), a compound widely employed as a key intermediate in different chemical processes. State-of-the-art quantum chemical calculations relying on CCSD(T)-based composite schemes and hybrid CCSD(T)/DFT approaches are used to obtain an accurate prediction of the structural, rotational and vibrational spectroscopic properties. In addition, the equilibrium geometry is obtained by exploiting the semi-experimental method. The theoretical predictions are used to guide the analysis of the experimentally recorded gas-phase infrared spectrum, which is assigned in the 400-6500 cm-1 region. Furthermore, absorption cross sections are accurately determined over the same spectral range. Finally, by using the obtained spectroscopic data, a first estimate of the global warming potential of R1122 vibrational spectra is obtained.

摘要

在过去的十年中,卤代乙稀因其在不同领域的应用而受到越来越多的关注;特别是在制冷、空调和热泵领域。与此同时,它们作为大气污染物的不良影响需要进行环境监测,特别是通过远程光谱技术。为此,需要对目标分子的光谱指纹(特别是那些与旋转-振动光谱相关的指纹)进行准确的特征描述。这项工作提供了对 R1122(2-氯-1,1-二氟乙烯,ClHC=CF2)的综合计算理论研究,R1122 作为不同化学过程中的关键中间体被广泛应用。本研究采用基于 CCSD(T)的组合方案和混合 CCSD(T)/DFT 方法的最先进的量子化学计算,以获得结构、旋转和振动光谱性质的准确预测。此外,通过利用半实验方法获得平衡几何形状。理论预测用于指导对实验记录的气相红外光谱的分析,该光谱在 400-6500 cm-1 范围内进行了分配。此外,在相同的光谱范围内准确地确定了吸收截面。最后,通过使用获得的光谱数据,对 R1122 振动光谱的全球变暖潜能进行了初步估计。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/91b7/8839295/cdfb445407ff/molecules-27-00748-g001.jpg

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