Special Photonic Crystal Modal Interferometer for Highly Sensitive Biosensing

Juan Esteban Betancur-Ochoa; Vladimir P. Minkovich; Yeison Javier Montagut-Ferizzola

Journal of Lightwave Technology
Vol. 35,
Issue 21,
pp. 4747-4751
(2017)

Special Photonic Crystal Modal Interferometer for Highly Sensitive Biosensing

Juan Esteban Betancur-Ochoa, Vladimir P. Minkovich, and Yeison Javier Montagut-Ferizzola

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Juan Esteban Betancur-Ochoa, Vladimir P. Minkovich, and Yeison Javier Montagut-Ferizzola, "Special Photonic Crystal Modal Interferometer for Highly Sensitive Biosensing," J. Lightwave Technol. 35, 4747-4751 (2017)

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Abstract

We present an all-fiber Mach–Zehnder modal interferometer based on a special photonic crystal fiber taper and its performance as a transducer for biological sensing. The sensor showed refractive index sensitivity around 722.3 nm/RIU for measurements between 1.30864 and 1.32014 RIU We investigated the interferometer as a transducer for an immunosensor system after immobilization of an antigen over the activated taper waist, where it detected the interaction between antigen and antibody achieving a record detection limit of 125 pg/ml of antibody concentration. This extra low detection limit allows the modal interferometer to be used in biosensing applications, such as disease diagnosis, or in the food industry.

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Journal of Lightwave Technology