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We present a chemical sensor design, based on the co-integration of microfluidic and optical functions on a planar glass substrate. Borosilicate glasses, thanks to their high chemical resistance allow the use of the sensor in a nuclear environment, such as the nuclear industry, in which analysis miniaturization is one of the most active research fields. The working principle of this sensor is based on absorptiometry, sensitivity-enhanced by the introduction of segmented waveguides into a resonant cavity.
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