A. Pais, A. Banerjee, D. K. Bandi, D. Klotzkin, I. Papautsky
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High Sensitivity On-Chip Fluorescence Detection Based on Cross-Polarization and Thin-Film Organic Photodetectors
In this paper we present a novel, high-sensitivity, cost-effective cross-polarization scheme to filter out excitation light from a fluorescent dye emission spectrum. With this scheme, it is possible to achieve a detection limit of 10 nM which is a 1,000 fold reduction from previously published results. The concept is demonstrated using an inverted microscope with a halide lamp as the excitation source and an organic photodiode as the intensity detector. The excitation light is linearly polarized and used to illuminate a microfluidic device containing 1 muL of Rhodamine 6G dye dissolved in ethanol. The detector is shielded by a second polarizer, orientated orthogonally to the excitation light. The resulting emission signal was detected by the organic photodiode down to a concentration of 10 nM. This scheme opens the possibility to fabricating integrated microfluidic devices with fluorescence detection, suitable for point- of-care (POC) diagnostics, biomedical and environmental applications.
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