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Issue 70, 2016, Issue in Progress
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Simply controllable growth of single crystal plasmonic Au–Ag nano-spines with anisotropic multiple sites for highly sensitive and uniform surface-enhanced Raman scattering sensing

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Abstract

The design and simple synthesis of plasmonic noble metal nanostructures with a highly tunable local surface plasmon resonance (LSPR) band and high density of “hot spots” is pivotal for multifarious wavelength matched, sensitive surface-enhanced Raman scattering (SERS) detection. Herein, inspired by the function of silver ions in nanorod aspect ratio control, a series of Au core@Au–Ag alloy spine nanostructures (Au@Au–Ag) with a controllable surface morphology and size were synthesized via a simple and cheap AgNO3-controlled chemistry and seed-mediated method. In addition, multifunctional L-DOPA was employed, which acts as a reducing agent and capping agent to reduce the Au/Ag ions, stabilize the nanostructures and direct a protuberant growth, so synthetic steps were simplified. Growth of anisotropic multiple sites form a high density of nano-spines, which form dense “hot spots” and a tunable LSPR band from visible to near-infrared wavelength. The correlations between the excitation laser wavelength and electromagnetic (EM) field distribution and enhancement in the Au@Au–Ag were further investigated. The strongest EM field was generated in the gap or tip area of the nanostructures and producing a compact nano-spine is necessary to generate a high density of “hot spots” and obtain a near-infrared signal. The calculated SERS-enhancement factor value of the Au@Au–Ag substrate is higher than 109. Finally, the highly controllable nanoantenna structures make the Au@Au–Ag be a multifarious wavelength compatible, sensitive SERS substrate for practical sensing applications. We further employ the surface-enhanced resonance Raman scattering detection of malachite green using Au@Au–Ag as a substrate under the interference of various ions and organics, which shows excellent anti-interference performance and reproducibility, the relative standard deviation is only 8.2%. Moreover, under the interference of various impurities in complex environmental water samples, the Au@Au–Ag substrate shows high sensitivity with a 100 pM limit of detection.

Graphical abstract: Simply controllable growth of single crystal plasmonic Au–Ag nano-spines with anisotropic multiple sites for highly sensitive and uniform surface-enhanced Raman scattering sensing

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Supplementary files

Article information


Submitted
24 May 2016
Accepted
02 Jul 2016
First published
04 Jul 2016

RSC Adv., 2016,6, 66056-66065
Article type
Paper

Simply controllable growth of single crystal plasmonic Au–Ag nano-spines with anisotropic multiple sites for highly sensitive and uniform surface-enhanced Raman scattering sensing

D. Chen, Z. Song, F. Chen, J. Huang, J. Wei and Y. Zhao, RSC Adv., 2016, 6, 66056
DOI: 10.1039/C6RA13420C

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