Surface-enhanced Raman scattering of Cis-(dicyanomethylene) squarate ion on a silver substrate

IF 2.4 3区 化学 Q2 SPECTROSCOPY Journal of Raman Spectroscopy Pub Date : 2024-07-02 DOI:10.1002/jrs.6716
Flávia C. Marques, Erix A. Milán-Garcés, Vanessa E. de Oliveira, Stéfanos L. Georgopoulos, Gustavo F. S. Andrade, Luiz Fernando C. de Oliveira
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Abstract

There has been increasing interest in the use of squaraines with different physicochemical properties. However, their applications in nanoplasmonics are limited. For that, detailed information on the interactions of squaraines with plasmonic nanostructures is required. In this work, we have studied the adsorption of the squaraine cis-dicyanomethylene squarate (CDSQ) on the surface of Ag nanoparticles (AgNP). We have combined normal Raman, surface-enhanced Raman scattering (SERS), and DFT calculations to get insights into the configuration of its adsorption. DFT calculations have been carried out using simplified models of different adsorption geometries for comparison with the results of the SERS experiments. A comparison between the relative intensities of the normal Raman and SERS spectra indicates that CDSQ is adsorbed perpendicular to the AgNP surface. The predicted spectra suggest that CDSQ is chemically adsorbed on the silver surface through one of its N atoms.

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方酸顺式(二氰基亚甲基)离子在银基底上的表面增强拉曼散射
人们对具有不同物理化学特性的方形烷的使用越来越感兴趣。然而,它们在纳米质子学中的应用还很有限。为此,我们需要角鲨烷与等离子纳米结构相互作用的详细信息。在这项工作中,我们研究了方碱顺式-二氰基亚甲基方酸酯(CDSQ)在银纳米粒子(AgNP)表面的吸附。我们结合了普通拉曼、表面增强拉曼散射(SERS)和 DFT 计算来深入了解其吸附构型。我们使用不同吸附几何形状的简化模型进行了 DFT 计算,以便与 SERS 实验结果进行比较。正常拉曼光谱和 SERS 光谱相对强度的比较表明,CDSQ 是垂直于 AgNP 表面吸附的。预测的光谱表明,CDSQ 是通过其一个 N 原子化学吸附在银表面的。
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来源期刊
CiteScore
5.40
自引率
8.00%
发文量
185
审稿时长
3.0 months
期刊介绍: The Journal of Raman Spectroscopy is an international journal dedicated to the publication of original research at the cutting edge of all areas of science and technology related to Raman spectroscopy. The journal seeks to be the central forum for documenting the evolution of the broadly-defined field of Raman spectroscopy that includes an increasing number of rapidly developing techniques and an ever-widening array of interdisciplinary applications. Such topics include time-resolved, coherent and non-linear Raman spectroscopies, nanostructure-based surface-enhanced and tip-enhanced Raman spectroscopies of molecules, resonance Raman to investigate the structure-function relationships and dynamics of biological molecules, linear and nonlinear Raman imaging and microscopy, biomedical applications of Raman, theoretical formalism and advances in quantum computational methodology of all forms of Raman scattering, Raman spectroscopy in archaeology and art, advances in remote Raman sensing and industrial applications, and Raman optical activity of all classes of chiral molecules.
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