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In Situ Regeneration of Silicon Microring Biosensors Coated with Parylene C

2022-03-25

 

Author(s): Zhang, H (Zhang, Huan); Lv, XQ (Lv, Xiaoqing); Huang, BJ (Huang, Beiju); Cheng, CT (Cheng, Chuantong); Zhang, Z (Zhang, Zan); Zhang, ZY (Zhang, Zanyun); Fang, WH (Fang, Weihao); Zhang, HJ (Zhang, Hengjie); Chen, R (Chen, Run); Huang, YL (Huang, Yulong); Chen, HD (Chen, Hongda)

Source: LANGMUIR Volume: 38 Issue: 1 Pages: 504-513 DOI: 10.1021/acs.langmuir.1c02914 Published: JAN 11 2022

Abstract: Optical biosensors support disease diagnostic applications, offering high accuracy and sensitivity due to label-free detection and their optical resonance enhancement. However, optical biosensors based on noble metal nanoparticles and precise micro-electromechanical system technology are costly, which is an obstacle for their applications. Here, we proposed a biosensor reuse method with nanoscale parylene C film, taking the silicon-on-insulator microring resonator biosensor as an example. Parylene C can efficiently adsorb antibody by one-step modification without any surface treatment, which simplifies the antibody modification process of sensors. Parylene C (20 nm thick) was successfully coated on the surface of the microring to modify anti-carcinoembryonic antigen (anti-CEA) and specifically detect CEA. After sensing, parylene C was successfully removed without damaging the sensing surface for the sensor reusing. The experimental results demonstrate that the sensing response did not change significantly after the sensor was reused more than five times, which verifies the repeatability and reliability of the reusable method by using parylene C. This framework can potentially reduce the cost of biosensors and promote their further applications.

Accession Number: WOS:000759480200051

PubMed ID: 34965120

ISSN: 0743-7463

Full Text: https://pubs.acs.org/doi/10.1021/acs.langmuir.1c02914



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