Paper
21 February 2018 High contrast grating based intrinsic fluorescence enhancing substrates for water contamination detection
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Proceedings Volume 10542, High Contrast Metastructures VII; 1054214 (2018) https://doi.org/10.1117/12.2289741
Event: SPIE OPTO, 2018, San Francisco, California, United States
Abstract
Water quality monitoring has become important in today’s scenario due to severe chemical and bacterial contamination in urban and rural water bodies. However, current monitoring methods do not provide fast and reliable results. By using intrinsic fluorescence, microbial contamination and industrial pollutants in water can be monitored in real-time, continuously and at very low concentrations. Intrinsic fluorescence can be enhanced by using High Contrast Gratings (HCGs) spectrally tuned to the fluorescence signatures of pollutants. Compared to metallic gratings which suffer from higher losses especially at lower wavelengths and are easily prone to oxidation, an all dielectric approach can overcome these limitations. HCGs using silicon nitride as grating material on a glass substrate are optimized to detect the presence of tryptophan (a bio-chemical marker for bacterial contamination) and phenanthrene (chemical contaminant). Tryptophan and phenanthrene have a fluorescence emission wavelength of 410 nm and 420 nm respectively. HCGs are optimized to enhance fluorescence emission at both of these wavelengths, therefore the optimized grating parameters for tryptophan (period: 255 nm, duty cycle: 0.8 and thickness: 260 nm) and phenanthrene (period: 282 nm, duty cycle: 0.8 and thickness: 289 nm) resulted in Q factor of 683 and 709 respectively. The optimized HCGs show an electric field enhancement of eight times concentrated in the air region between the gratings which would result in enhanced fluorescence.
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M. V. N. Surendra Gupta, Ameen E., Sruti Menon, Lal Krishna A. S., Varun Raghunathan, and Bala Pesala "High contrast grating based intrinsic fluorescence enhancing substrates for water contamination detection", Proc. SPIE 10542, High Contrast Metastructures VII, 1054214 (21 February 2018); https://doi.org/10.1117/12.2289741
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KEYWORDS
Luminescence

Finite-difference time-domain method

Industrial chemicals

Water contamination

Bacteria

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