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On-Chip Surface-Enhanced Raman Scattering Detection Using Integrated Liquid-Core Waveguides, Aaron R. Hawkins, Evan J. Lunt, Phillip Measor, Leo Seballos, Dongliang Yin, Jin Z. Zhang, Holger Schmidt
On-Chip Surface-Enhanced Raman Scattering Detection Using Integrated Liquid-Core Waveguides, Aaron R. Hawkins, Evan J. Lunt, Phillip Measor, Leo Seballos, Dongliang Yin, Jin Z. Zhang, Holger Schmidt
Faculty Publications
The authors demonstrate surface-enhanced Raman scattering (SERS) detection on an optofluidic chip. Interconnected solid- and liquid-core antiresonant reflecting optical waveguides (ARROWs) form a planar beam geometry that allows for high mode intensities along microfluidic channels containing molecules optimized for SERS. The excitation power and concentration dependence of SERS from rhodamine 6G (R6G) molecules adsorbed to silver nanoparticles were systematically studied. The data can be described by a model that takes into account the microphotonic structure. Detection sensitivity to a minimum concentration of 30 nM is found, demonstrating the suitability of ARROW-based optofluidic chips for high sensitivity detection with molecular specificity