Synthesis and Raman Performance Enhancement of Multilayer AuAg Heterostructures with Magnetic Resonance

Q3 Multidisciplinary
Fan Huang, Zhirui Zhao, Jingru Feng, Liang Ma, Sijing Ding
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引用次数: 0

Abstract

Significant amplification of surface enhanced Raman scattering (SERS) signals can be achieved mainly by the electric field enhancement in metal core-shell nanostructures, and the enhanced magnetic field is rarely studied. In this study, we prepared multi-gap Au/AgAu core-shell hybrid nanostructures by using gold nanocup as the core. The overgrowth processes to grow one, two, and three layers of AgAu hybrid nanoshells can produce Au/AgAu1, Au/AgAu2, and Au/AgAu3 heteronanostructures. The strong plasmon coupling between the core and shell leads to significant electromagnetic field enhancement. Under the synergistic effect of electromagnetic plasmon resonance and plasmon coupling, Au/AgAu core-shell hybrid nanostructures exhibit excellent SERS signals. We also investigate the effect of the interstitial position of the rhodamine B (RhB) molecule on Raman enhancement in Au/AgAu3 heteronanostructures. This study can provide new ideas for the synthesis of multi-gap Raman signal amplifiers based on magnetic plasmon coupling.
多层AuAg异质结构的合成及其拉曼性能的磁共振增强
表面增强拉曼散射(SERS)信号的显著放大主要是通过金属核壳纳米结构中的电场增强来实现的,而磁场增强的研究很少。本研究以金纳米杯为核心制备了多间隙Au/AgAu核壳杂化纳米结构。通过生长一层、两层和三层AgAu杂化纳米壳的过生长工艺,可以制备出Au/AgAu1、Au/AgAu2和Au/AgAu3杂化纳米结构。核壳之间的强等离子体耦合导致显著的电磁场增强。在电磁等离子体共振和等离子体耦合的协同作用下,Au/AgAu核壳杂化纳米结构表现出优异的SERS信号。我们还研究了罗丹明B (RhB)分子的间隙位置对Au/AgAu3异质结构中拉曼增强的影响。该研究为基于磁等离激元耦合的多间隙拉曼信号放大器的合成提供了新的思路。
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来源期刊
Wuhan University Journal of Natural Sciences
Wuhan University Journal of Natural Sciences Multidisciplinary-Multidisciplinary
CiteScore
0.40
自引率
0.00%
发文量
2485
期刊介绍: Wuhan University Journal of Natural Sciences aims to promote rapid communication and exchange between the World and Wuhan University, as well as other Chinese universities and academic institutions. It mainly reflects the latest advances being made in many disciplines of scientific research in Chinese universities and academic institutions. The journal also publishes papers presented at conferences in China and abroad. The multi-disciplinary nature of Wuhan University Journal of Natural Sciences is apparent in the wide range of articles from leading Chinese scholars. This journal also aims to introduce Chinese academic achievements to the world community, by demonstrating the significance of Chinese scientific investigations.
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