Reversible Protein Detection Method Based on Self-Assembled Monolayers Using Ellipsometry

K. J. Gill, K. Isaacson, S. Dew, D. Kwok
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Abstract

We propose a simple, and selective optical method for biological detection, using reflection or absorption of light upon transmission through a homogeneous/inhomogeneous thin film surface. In this experimental study, a wavelength band is sought as an optical signature to identify biological sample immobilized on an ultrathin film. We have used variable angle spectroscopic ellipsometry, a technique generally used in the semiconductor industry, to identify proteins. For immobilizing the proteins, 1-octadecanethiol (C-18) coated to gold (Au) substrate has been used because of its low surface energy. In order to characterize 1-octadecanethiol and evaluate its re-usability, fourier transform infrared spectroscopy (FTIR) was employed. Experimental results illustrate that proteins are sensitive to optical investigation in visible and near infrared region of the electromagnetic spectrum.
基于自组装单分子膜的可逆蛋白检测方法
我们提出了一种简单的、选择性的生物检测光学方法,利用光通过均匀/非均匀薄膜表面时的反射或吸收。在本实验研究中,寻找波长波段作为光学特征来识别固定在超薄膜上的生物样品。我们已经使用了可变角度的椭偏光谱技术,一种在半导体工业中普遍使用的技术,来识别蛋白质。利用表面能低的1-十八烷硫醇(C-18)包覆在金(Au)底物上进行固定化。利用傅里叶变换红外光谱(FTIR)对1-十八烷硫醇进行表征并评价其可重复利用性。实验结果表明,蛋白质在电磁波谱的可见光和近红外区域对光学研究很敏感。
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