Optofluidic Lab-on-a-Chip Fluorescence Sensor Using Integrated Buried ARROW (bARROW) Waveguides

Johnny McMurray; Holger Schmidt; Gopikrishnan Meena; Vahid Ganjalizadeh; Thomas Wall; Aaron R. Hawkins

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Optofluidic Lab-on-a-Chip Fluorescence Sensor Using Integrated Buried ARROW (bARROW) Waveguides

机译：使用集成埋入式ARROW（bARROW）波导的光流体芯片实验室荧光传感器

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Optofluidic, lab-on-a-chip fluorescence sensors were fabricated using buried anti-resonant reflecting optical waveguides (bARROWs). The bARROWs are impervious to the negative water absorption effects that typically occur in waveguides made using hygroscopic, plasma-enhanced chemical vapor deposition (PECVD) oxides. These sensors were used to detect fluorescent microbeads and had an average signal-to-noise ratio (SNR) that was 81.3% higher than that of single-oxide ARROW fluorescence sensors. While the single-oxide ARROW sensors were annealed at 300 ???°C to drive moisture out of the waveguides, the bARROW sensors required no annealing process to obtain a high SNR.

机译：使用埋入的反谐振反射光波导（bARROW）制造了光流体芯片实验室荧光传感器。箭杆不会吸收通常在使用吸湿性，等离子增强化学气相沉积（PECVD）氧化物制成的波导中产生的负吸水效果。这些传感器用于检测荧光微珠，其平均信噪比（SNR）比单氧化物ARROW荧光传感器高81.3％。当单氧化物ARROW传感器在300°C退火以驱除水分从波导中出来时，bARROW传感器不需要退火工艺即可获得高SNR。

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《Micromachines》 |2017年第8期|共页
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Johnny McMurray; Holger Schmidt; Gopikrishnan Meena; Vahid Ganjalizadeh; Thomas Wall; Aaron R. Hawkins;
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1. Liquid Core ARROW Waveguides: A Promising Photonic Structure for Integrated Optofluidic Microsensors [J] . Romeo Bernini, Gianluca Persichetti, Genni Testa Micromachines . 2016,第3期

机译：液芯ARROW波导：集成光电流微传感器的有前途的光子结构。
2. Silica-on-silicon waveguide integrated polydimethylsiloxane lab-on-a-chip for quantum dot fluorescence bio-detection [J] . Jayan Ozhikandathil, Muthukumaran Packirisamy Journal of biomedical optics . 2012,第1期

机译：硅基二氧化硅波导集成的聚二甲基硅氧烷芯片实验室，用于量子点荧光生物检测
3. An Integrated, Optofluidic System With Aligned Optical Waveguides, Microlenses, and Coupling Prisms for Fluorescence Sensing [J] . Park Daniel Sang-Won, Young Brandon M., You Byoung-Hee, Journal of Microelectromechanical Systems . 2020,第4期

机译：具有对准光波导，微透镜和荧光传感耦合棱镜的集成的Optof流体系统
4. Analysis of integrated optofluidic lab-on-a-chip fluorescence biosensor based on transmittance of light through a fluidic gap [C] . Krishnaswamy Narayan, Srinivas T., Rao G. Mohan 33rd Annual International Conference of the IEEE Engineering in Medicine and Biology Society . 2011

机译：基于光通过流体间隙的透射率的集成光流芯片实验室荧光生物传感器的分析
5. Tapered air-core Bragg waveguide spectrometers for fluorescence detection in lab-on-a-chip devices. [D] . Drobot, Brian Andrew. 2014

机译：锥形空心布拉格光谱仪，用于芯片实验室设备中的荧光检测。
6. Optofluidic Lab-on-a-Chip Fluorescence Sensor Using Integrated Buried ARROW (bARROW) Waveguides [O] . Thomas Wall, Johnny McMurray, Gopikrishnan Meena, 2017

机译：使用集成埋入式ARROW（bARROW）波导的光流体芯片实验室荧光传感器
7. Liquid Core ARROW Waveguides: A Promising Photonic Structure for Integrated Optofluidic Microsensors [O] . Genni Testa, Gianluca Persichetti, Romeo Bernini 2016

机译：液体核心aRROW波导：用于集成光学流体微传感器的有前景的光子结构

Optofluidic Lab-on-a-Chip Fluorescence Sensor Using Integrated Buried ARROW (bARROW) Waveguides

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