Integrated Waveguide Absorbance Optode for Chemical Sensing

Abstract: A new type of absorbance-based optical sensor is presented. It is based on a chemical transduction membrane that acts simultaneously as the sensing element and as the light guiding medium. This membrane is inserted between two micromachined waveguides in a silica on silicon structure. Light propagates longitudinally through the membrane, which changes its spectral properties accordingly while interacting with the analyte. As the path length corresponds to the membrane length, not its thickness, high sensitivit… Show more

“…Among all the optical techniques, absorption spectroscopy is a very well-known method used to identify the chemical composition of a sample. Many works presented in the literature are based on complex waveguide or optrode structures that need to be customfabricated and usually make use of laser diodes or LEDs for single-or double-wavelength measurements [7][8][9]. Other solutions feature round-section glass capillaries [10][11][12][13].…”

A NIR-Spectroscopy-Based Approach for Detection of Fluids in Rectangular Glass Micro-Capillaries

“…Among all the optical techniques, absorption spectroscopy is a very well-known method used to identify the chemical composition of a sample. Many works presented in the literature are based on complex waveguide or optrode structures that need to be customfabricated and usually make use of laser diodes or LEDs for single-or double-wavelength measurements [7][8][9]. Other solutions feature round-section glass capillaries [10][11][12][13].…”

A NIR-Spectroscopy-Based Approach for Detection of Fluids in Rectangular Glass Micro-Capillaries

“…4 Evanescent field sensing has been widely used in devices targeting physical, 5 chemical, 6 or biological events 7 by detecting changes in evanescent fluorescence, 8 refractive index, 9 or spectroscopic shifts. 10,11 Popular examples include waveguide sensors for the detection of pathogens, 12,13 total internal reflection fluorescence spectroscopy and dual-polarization interferometry, 14,15 as well as fingerprint identification scanners. 16 Realizing broader practical applications of waveguide-based chemo-and bio-sensors requires improved concepts for the reproducible, versatile, and cost-effective fabrication of modular sensing platforms that allow for enhanced signals upon chemical recognition of an analyte.…”

Waveguide-based chemo- and biosensors: complex emulsions for the detection of caffeine and proteins

“…The wide variety of key components needed to design lTASs has hindered their full development. Among the functional elements needed are microfluidic structures and their connections [4], pumps [5,6], valves [7,8], injection elements [9,10], reactors [11,12], filters [13], separation and/or preconcentration devices [14], microsensors (physical and chemical) [15,16].…”

Green-tape ceramics. New technological approach for integrating electronics and fluidics in microsystems