Chip-Based Integrated Filterless Multi-Wavelength Optoelectronic Bio-Chemical Sensors

2005 Sensors for Industry Conference Pub Date : 2005-02-01 DOI:10.1109/SICON.2005.257883

D. Starikov, C. Joseph, A. Bensaoula, M. Boukadoum

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引用次数: 1

Abstract

High-sensitivity (parts-per-billion) optical sensors based on fluorescence, absorption, and scattering can be employed not only for detection of various analytes, but also to determine the concentration, size, temperature, pressure, and flow of the medium. Even modern compact portable systems based on solid-state lasers. Light emitting diodes (LEDs), and photodiodes (PD) use traditional optic elements, such as lenses and glass or interference optical filters to make the spectral bands of both light sources and photodetectors selective in order to characterize specific parameters. In this work we demonstrated integration of multi-spectral III nitride based wavelength-selective LED and PD chips on a single miniature substrate, which will allow for avoiding optical filters and waveguides. The multifunctional capabilities of such sensor are provided by the multi-band LED emission and detection in a wide wavelength range from near UV to near IR. Such capabilities will be further improved in the proposed sensors by using a surface enhancement effect (SEE) based on employment of by metal nanostructures in the analyte vicinity

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基于芯片的集成无滤波器多波长光电生化传感器

基于荧光、吸收和散射的高灵敏度(十亿分之一)光学传感器不仅可用于检测各种分析物，还可用于确定介质的浓度、大小、温度、压力和流量。即使是基于固态激光器的现代小型便携式系统。发光二极管(led)和光电二极管(PD)使用传统的光学元件，如透镜和玻璃或干涉滤光片，使光源和光电探测器的光谱带具有选择性，以便表征特定参数。在这项工作中，我们展示了基于多光谱III氮化物的波长选择LED和PD芯片在单个微型衬底上的集成，这将允许避免光学滤波器和波导。这种传感器的多功能能力是通过在近紫外到近红外的宽波长范围内的多波段LED发射和检测提供的。这种能力将通过在分析物附近使用金属纳米结构的表面增强效应(SEE)进一步提高

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2005 Sensors for Industry Conference

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