Plasmon-enhanced Raman spectroscopy: Towards hyperuniform ultrasensitive enhancement through hyperuniform disorder

2014 Third Mediterranean Photonics Conference Pub Date : 2014-05-07 DOI:10.1109/MEPHOCO.2014.6866481

G. Zito, G. Rusciano, G. Pesce, A. Dochshanov, Anna Malafronte, Giovanni Ausanio, A. Sasso

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引用次数: 2

Abstract

We are developing a polymer-silver nanocomposite self-assembling-based protocol for fabricating surface-enhanced Raman scattering (SERS) substrates for versatile applications. The substrate is based on a silver-made fractal nanotexture produced by the long-range self-assembling of Ag-loaded block-copolymer micelles. We removed the nano-packing limitation imposed by the copolymer shell, achieving a condition close to the so-called hyperuniform structural disorder. Despite the large enhancement factor, estimated up to 109, the SERS response shows an ultrahigh spatial uniformity with a relative standard deviation in the range 0.9% - 5.6%, as measured from raster scans covering a total area of 1 cm2, that is from an active surface orders of magnitude larger than the typical nanofeature size and produced by an innovative low-cost and immediate deposition. The SERS-active coating allows large-scale spectroscopic scanning as required for real biological applications, still having, as experimentally evidenced, single-molecule sensitivity.

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等离子体增强拉曼光谱:通过超均匀无序实现超均匀超灵敏增强

我们正在开发一种基于聚合物-银纳米复合材料自组装的方案，用于制造多用途的表面增强拉曼散射(SERS)衬底。衬底是基于银制成的分形纳米结构，该结构是由载银嵌段共聚物胶束的远程自组装而产生的。我们消除了由共聚物外壳施加的纳米填塞限制，实现了接近所谓的超均匀结构紊乱的条件。尽管有很大的增强因子，估计高达109,SERS响应显示出超高的空间均匀性，相对标准偏差在0.9% - 5.6%的范围内，这是通过覆盖总面积为1 cm2的光栅扫描测量到的，这是一个比典型纳米特征尺寸大几个数量级的活性表面，并且是由创新的低成本和即时沉积产生的。sers活性涂层可以根据实际生物应用的需要进行大规模光谱扫描，并且仍然具有实验证明的单分子灵敏度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2014 Third Mediterranean Photonics Conference

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