TiO 2 纳米线阵列干涉传感器

杨洋, 何皓, 李秋顺, 史建国, 李明宇, 董文飞
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引用次数: 0

摘要

本文研制了一种基于tio2纳米线阵列的新型干涉传感器。首先,采用水热合成方法在导电FTO玻璃表面制备tio2纳米线阵列薄膜。然后,以tio2纳米线阵列薄膜的复合结构FTO玻璃为传感芯片,利用典型的克雷茨曼棱镜耦合结构,构建了一种基于波长调制的新型干涉式薄膜传感器。最后,以氯化钠水溶液为测量介质,展示了干涉测量传感器对环境折射率的响应性能。结果表明,该传感器在1范围内对折射率有较好的响应。333 ~ 1。360 4。在TM模式下,反射率光强与NaCl浓度分别在0% ~ 3%和3% ~ 15%质量百分比范围内呈良好的线性关系。对于TE模式,在0 ~ 3% NaCl浓度范围内,NaCl浓度与吸收强度呈负线性关系,共振波长基本不变;在3 ~ 15% NaCl浓度范围内,随着NaCl浓度的增加,共振波长逐渐红移,且NaCl浓度与共振波长呈线性正相关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
TiO 2 纳米线阵列干涉传感器
In this work,a new TiO2nanowire array based interferometric sensor had been developed. At first, TiO2nanowire array films were prepared on the surface of conductive FTO glass through hydrothermal synthesis method. Then,a new type of interferometric film sensor based on wavelength modulation was constructed by utilizing the compound structure FTO glass with TiO2nanowire array thin film as the sensing chip and making use of the typical Kretschmann prism coupling structure. Finally,the response performance of the interfero-metric sensor to ambient refractive index was displayed by employing sodium chloride aqueous solution as the measured liquid media. The results show that the sensor has a preferable response to refractive index over the range of 1. 333 5 ~ 1. 360 4. In the case of TM mode,there is a good linear relationship between reflectometric light intensity and NaCl concentration in the range of 0% to 3% and 3% to 15% quality percentage,respectively. For TE mode,within the range of 0 to 3% NaCl concentration,it shows a negative linear relationship between NaCl concentration and the absorption intensity while the resonant wavelength is basically unchanged; within the range of 3 to 15% NaCl concentration,with the increase of NaCl concentration,the resonant wavelength is gradually red shifted and it exhibits a positive linear relationship between NaCl concentration and resonant wavelength.
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