用于化学和生物传感器的微调局部表面等离子体共振

SPIE Defense + Commercial Sensing Pub Date : 2008-04-30 DOI:10.1117/12.776909

J.-X. Fu, Y. Zhao

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引用次数: 2

摘要

金属纳米粒子在光激发下由于电子的集体振荡而表现出局域表面等离子体共振(LSPR)。不同的应用需要特定的LSPR波长和吸光度光谱。设计纳米结构和调整LSPR波长位置的能力对于传感应用非常重要。我们提出了一种简单而通用的制备技术——斜角度沉积，来调节银薄膜的LSPR波长。采用斜角度沉积法制备了标称厚度为5 ~ 100nm、沉积角度为0°和85°的纳米银薄膜。随着厚度的增加，LSPR波长发生蓝移。在大沉积角度下，厚度每增加5nm, LSPR波长平均蓝移3nm。研究了Ag LSPR衬底在液体环境下的稳定性，提出了一种表面钝化方法。这些底物能够检测10-10 M的NeutrAvidin。

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Fine tune localized surface plasmon resonance for chemical and biological sensors

Metallic nanoparticles usually exhibit localized surface plasmon resonance (LSPR) due to the collective oscillation of electrons upon light excitation. Different applications require specific LSPR wavelengths and absorbance spectra. The ability to engineer the nanostructure and to tune the location of the LSPR wavelength is very important for the sensing applications. We present a simple but versatile fabrication technique, the oblique angle deposition, to tune the LSPR wavelength of Ag thin films. Oblique angle deposition was used to produce silver nanoparticle films with nominal thickness from 5 nm to 100nm and two deposition angles, 0° and 85°. With increasing thickness, the LSPR wavelength is blue shifted. At the large deposition angle, the LSPR wavelength is blue shifted by 3nm on average with every 5nm thickness increment. The stability of the Ag LSPR substrate under liquid environment has been studied, and a surface passivation method is proposed. Those substrates are capable of detection 10-10 M NeutrAvidin.

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SPIE Defense + Commercial Sensing

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