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Contracts: NSF: DMI-0215819, DMI-0349687, DMI-0512701,

. Mission: Provide analyzers that perform continuous, real-time, trace chemical detection with the ability to operate in harsh environments. Our fiber optic probes allow easy installation and use in all industries employing chemicals. Such as:Agriculture Petrochemical Biopharmaceutical PharmaceuticalChemical PolymerEnvironmental MedicalHomeland Security R

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Contracts: NSF: DMI-0215819, DMI-0349687, DMI-0512701,

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    1. Stu - Ph.D. Analytical Chemistry, instrument designer Wayne - B.S. Geochemistry, programmer (software), instrument builder Carl - M.S. Electrical Engineering, programmer (hardware), design engineerStu - Ph.D. Analytical Chemistry, instrument designer Wayne - B.S. Geochemistry, programmer (software), instrument builder Carl - M.S. Electrical Engineering, programmer (hardware), design engineer

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    24. Comparison of SERS to Raman for TDG. Again obtain typical signal enhancement, 200,000 As well as some changes in the spectra, shift in peak positions and intensities. Comparison of SERS to Raman for TDG. Again obtain typical signal enhancement, 200,000 As well as some changes in the spectra, shift in peak positions and intensities.

    25. Comparison of SERS to Raman for TDG. Again obtain typical signal enhancement, 200,000 As well as some changes in the spectra, shift in peak positions and intensities. Comparison of SERS to Raman for TDG. Again obtain typical signal enhancement, 200,000 As well as some changes in the spectra, shift in peak positions and intensities.

    26. Comparison of SERS to Raman for TDG. Again obtain typical signal enhancement, 200,000 As well as some changes in the spectra, shift in peak positions and intensities. Comparison of SERS to Raman for TDG. Again obtain typical signal enhancement, 200,000 As well as some changes in the spectra, shift in peak positions and intensities.

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