SERS study on the synergistic effects of electric field enhancement and charge transfer in an Ag2S quantum dots/plasmonic bowtie nanoantenna composite system

doi:10.1364/prj.383612

CIOMP OpenIR

	SERS study on the synergistic effects of electric field enhancement and charge transfer in an Ag2S quantum dots/plasmonic bowtie nanoantenna composite system
	B. Wang,C. Zhao,H. Y. Lu,T. T. Zou,S. C. Singh,Z. Yu,C. N. Yao,X. Zheng,J. Xing,Y. T. Zou,C. Z. Tong,W. L. Yu,B. Zhao and C. L. Guo
	2020
发表期刊	Photonics Research
ISSN	2327-9125
卷号	8 期号:4 页码:548-563
摘要	Localized surface plasmon resonance (LSPR) of nanostructures and the interfacial charge transfer (CT) of semiconductor materials play essential roles in the study of optical and photoelectronic properties. In this paper, a composite substrate of Ag2S quantum dots (QDs) coated plasmonic Au bowtie nanoantenna (BNA) arrays with a metal insulator -metal (MIM) configuration was built to study the synergistic effect of LSPR and interfacial CT using surface-enhanced Raman scattering (SERS) in the near-infrared (NIR) region. The Au BNA array structure with a large enhancement of the localized electric field (E-field) strongly enhanced the Raman signal of adsorbed p-aminothiophenol (PATP) probe molecules. Meanwhile, the broad enhanced spectral region was achieved owing to the coupling of LSPR. The as-prepared Au BNA array structure facilitated enhancements of the excitation as well as the emission of Raman signal simultaneously, which was established by finite-difference time-domain simulation. Moreover, Ag2S semiconductor QDs were introduced into the BNA/PATP system to further enhance Raman signals, which benefited from the interfacial CT resonance in the BNA/Ag2S-QDs/PATP system. As a result, the Raman signals of PATP in the BNA/Ag2S-QDs/PATP system were strongly enhanced under 785 nm laser excitation due to the synergistic effect of E-field enhancement and interfacial CT. Furthermore, the SERS polarization dependence effects of the BNA/Ag2S-QDs/PATP system were also investigated. The SERS spectra indicated that the polarization dependence of the substrate increased with decreasing polarization angles (theta(pola)) of excitation from p-polarized (theta(pola) = 90 degrees) excitation to s-polarized (theta(pola) = 0 degrees) excitation. This study provides a strategy using the synergistic effect of interfacial CT and E-field enhancement for SERS applications and provides a guidance for the development of SERS study on semiconductor QD-based plasmonic substrates, and can be further extended to other material-nanostructure systems for various optoelectronic and sensing applications. (C) 2020 Chinese Laser Press
DOI	10.1364/prj.383612
URL	查看原文
收录类别	SCI ; EI
语种	英语
引用统计
文献类型	期刊论文
条目标识符	http://ir.ciomp.ac.cn/handle/181722/64876
专题	中国科学院长春光学精密机械与物理研究所
推荐引用方式 GB/T 7714	B. Wang,C. Zhao,H. Y. Lu,T. T. Zou,S. C. Singh,Z. Yu,C. N. Yao,X. Zheng,J. Xing,Y. T. Zou,C. Z. Tong,W. L. Yu,B. Zhao and C. L. Guo. SERS study on the synergistic effects of electric field enhancement and charge transfer in an Ag2S quantum dots/plasmonic bowtie nanoantenna composite system[J]. Photonics Research,2020,8(4):548-563.
APA	B. Wang,C. Zhao,H. Y. Lu,T. T. Zou,S. C. Singh,Z. Yu,C. N. Yao,X. Zheng,J. Xing,Y. T. Zou,C. Z. Tong,W. L. Yu,B. Zhao and C. L. Guo.(2020).SERS study on the synergistic effects of electric field enhancement and charge transfer in an Ag2S quantum dots/plasmonic bowtie nanoantenna composite system.Photonics Research,8(4),548-563.
MLA	B. Wang,C. Zhao,H. Y. Lu,T. T. Zou,S. C. Singh,Z. Yu,C. N. Yao,X. Zheng,J. Xing,Y. T. Zou,C. Z. Tong,W. L. Yu,B. Zhao and C. L. Guo."SERS study on the synergistic effects of electric field enhancement and charge transfer in an Ag2S quantum dots/plasmonic bowtie nanoantenna composite system".Photonics Research 8.4(2020):548-563.

条目包含的文件
文件名称/大小	文献类型	版本类型	开放类型	使用许可
SERS study on the sy（2981KB）	期刊论文	出版稿	开放获取	CC BY-NC-SA	浏览下载