Planar integrated optical biosensors are becoming more and more important as they facilitate label-free and real-time monitoring with high sensitivity. In this paper, the systematic work on the development of this kind of optical biosensor built on a novel polymer platform named PSQ-Ls will be presented. The material itself is of very low cost, and the optical devices with high performances are fabricated through a simple UV-based soft imprint lithography technique. Especially for ring resonator, Q value as high as 5 x 10(4) and 2.7 x 10(4) are achieved in air and water condition. These optical chips are functionalized efficiently with protein A molecules through physical immobilization, after careful investigation of the physicochemical and chemical properties of their surface. Both bulk sensing and surface sensing are performed. The proposed optical biosensor exhibits good response not only to its surrounding environment's change but also to the small amount of targeted molecules appearing in the buffered solution, which is human-IgG in our study.
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机译:平面集成光学生物传感器变得越来越重要,因为它们促进了无标签和高灵敏度的实时监控。在本文中,将介绍基于新型聚合物平台PSQ-Ls开发这种光学生物传感器的系统工作。该材料本身的成本非常低,并且具有高性能的光学器件是通过简单的基于UV的软压印光刻技术制造的。特别是对于环形谐振器,在空气和水的条件下,Q值分别达到5 x 10(4)和2.7 x 10(4)。在仔细研究了其表面的物理化学和化学性质后,这些光学芯片通过物理固定被A蛋白分子有效地功能化。同时执行体感测和表面感测。提出的光学生物传感器不仅对周围环境的变化表现出良好的响应,而且对缓冲溶液中出现的少量目标分子(在我们的研究中为人IgG)表现出良好的响应。
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