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Highly reproducible surface-enhanced Raman scattering-active Au nanostructures prepared by simple electrodeposition: Origin of surface-enhanced Raman scattering activity and applications as electrochemical substrates

机译:通过简单的电沉积制备的可高度复制的表面增强拉曼散射活性金纳米结构:表面增强拉曼散射活性的起源及其作为电化学基质的应用

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The fabrication of effective surface-enhanced Raman scattering (SERS) substrates has been the subject of intensive research because of their useful applications. In this paper, dendritic gold (Au) rod (DAR) structures prepared by simple one-step electrodeposition in a short time were examined as an effective SERS-active substrate. The SERS activity of the DAR surfaces was compared to that of other nanostructured Au surfaces with different morphologies, and its dependence on the structural variation of DAR structures was examined. These comparisonal investigations revealed that highly faceted sharp edge sites present on the DAR surfaces play a critical role in inducing a high SERS activity. The SERS enhancement factor was estimated to be greater than 105, and the detection limit of rhodamine 6G at DAR surfaces was 10~(-8) M. The DAR surfaces exhibit excellent spot-to-spot and substrate-to-substrate SERS enhancement reproducibility, and their long-term stability is very good. It was also demonstrated that the DAR surfaces can be effectively utilized in electrochemical SERS systems, wherein a reversible SERS behavior was obtained during the cycling to cathodic potential regions. Considering the straightforward preparation of DAR substrates and the clean nature of SERS-active Au surfaces prepared in the absence of additives, we expect that DAR surfaces can be used as cost-effective SERS substrates in analytical and electrochemical applications.
机译:由于其有用的应用,有效的表面增强拉曼散射(SERS)衬底的制造一直是深入研究的主题。本文研究了在短时间内通过简单的一步电沉积制备的树状金(Au)棒(DAR)结构,作为有效的SERS活性基质。将DAR表面的SERS活性与其他具有不同形态的纳米结构的Au表面的SERS活性进行了比较,并研究了其对DAR结构变化的依赖性。这些比较研究表明,DAR表面上存在高度刻面的尖锐边缘部位在诱导高SERS活性中起关键作用。 SERS增强因子估计大于105,若丹明6G在DAR表面的检出限为10〜(-8)M。DAR表面具有出色的点对点和底物对底物SERS增强重现性,并且它们的长期稳定性非常好。还证明了DAR表面可以有效地用于电化学SERS系统中,其中在循环到阴极电势区域期间获得了可逆的SERS行为。考虑到DAR基材的直接制备以及在没有添加剂的情况下制备的SERS活性金表面的清洁性质,我们希望DAR表面可以用作分析和电化学应用中具有成本效益的SERS基材。

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