Ultrafast laser writing of waveguides in glasses is a very flexible and simple method for direct on-chip integration of photonic devices. In this work we present a monolithic optofluidic device in fused silica providing label-free and spatially-resolved sensing in a microfluidic channel. A Mach-Zehnder interferometer is inscribed with the sensing arm orthogonally crossing the microfluidic channel and the reference arm passing over it. The interferometer is integrated either with a microchannel fabricated by femtosecond laser technology or into a commercial lab-on-chip for capillary electrophoresis. The device layout, made possible by the unique three-dimensional capabilities of the technique, enables label-free sensing of samples flowing in the microchannel with spatial resolution of about 10 mm and limit of detection down to 10-4 RIU.

Three-dimensional Mach-Zehnder interferometer in a microfluidic chip for spatially-resolved label-free detection

CRESPI, ANDREA;RAMPONI, ROBERTA;CERULLO, GIULIO NICOLA;OSELLAME, ROBERTO
2010-01-01

Abstract

Ultrafast laser writing of waveguides in glasses is a very flexible and simple method for direct on-chip integration of photonic devices. In this work we present a monolithic optofluidic device in fused silica providing label-free and spatially-resolved sensing in a microfluidic channel. A Mach-Zehnder interferometer is inscribed with the sensing arm orthogonally crossing the microfluidic channel and the reference arm passing over it. The interferometer is integrated either with a microchannel fabricated by femtosecond laser technology or into a commercial lab-on-chip for capillary electrophoresis. The device layout, made possible by the unique three-dimensional capabilities of the technique, enables label-free sensing of samples flowing in the microchannel with spatial resolution of about 10 mm and limit of detection down to 10-4 RIU.
2010
integrated three-dimensional Mach Zender interferometer; integrated label-free optical detection; lab-on-a-chip; integrated optofluidic device
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11311/582283
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