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Applied Physics Laboratory
University of Washington
 
 

Recent Publications

PATENTS AND DISCLOSURES:

  1. Brian J. Marquardt and Lloyd W. Burgess, Optical Immersion Probe Incorporating A Spherical Lens, US patent # 6,831,745 B2, issued December 2004.
  2. Brian J. Marquardt, Scott R. Goode, and S. Michael Angel, On-Site Determination of Lead in Paint Using a Novel Optical Fiber Probe, disclosure 9/15/96.

PUBLICATIONS:

  1. B. J. Marquardt, S. R. Goode and S. M. Angel, “In-Situ Determination of Lead in Paint by Laser-Induced Breakdown Spectroscopy Using a Fiber-Optic Probe,” Anal Chem, 68, 6, 1996.
  2. B. J. Marquardt, B. M. Cullum and S. M. Angel, “Fiber-Optic Probe for Determining Heavy Metals in Solids Based on Laser-Induced Plasmas,” SPIE Proceedings, Vol. 3105 Paper 40, June 1997.
  3. B. J. Marquardt, Dimitra N. Stratis, D. A. Cremers and S. M. Angel, “Novel probe for Laser-Induced Breakdown Spectroscopy and Raman Measurements Using an Imaging Optical Fiber,” Appl. Spectrosc, 52, 9, 1148, 1998.
  4. B. M. Cullum, P. K. Khulbe, B. J. Marquardt, S. M. Angel, ”Spectrally and temporally resolved laser induced fluorescence (LIF) provides insight into the mechanism of flame retardation,” American Chemical Society, Division of Fuel Chemistry, 43(1), 118-121, 1998.
  5. J. A. Subramony, B. J. Marquardt, J. W. Macklin and B. Kahr, “Reevaluation of Raman Spectra for KH2PO4 High Temperature Phases,” Chem. Mater., 11, 5, 1312, 1999
  6. S. M. Angel, J. C. Carter, D. N. Stratis, B. J. Marquardt, W. E. Brewer, “Some New Uses for Filtered Fiber-Optic Raman Probes: In Situ Drug Identification and In Situ and Remote Raman imaging,” J. Raman Spectrosc., 30, 9, 795, 1999.
  7. B. J. Marquardt, K. P. Turney and L. W. Burgess, “Raman Waveguide Detector for Low Analyte Concentrations in Liquid Samples,” SPIE Proceedings, Vol. 3860, Paper 31, September 19-23, 1999.
  8. S. Lovell, B. J. Marquardt, B. Kahr, ”Crystal violet's shoulder,” J. Chem. Soc. Perkin Trans. 2, 11, 2241, 1999.
  9. B.J. Marquardt, P. Vahey, R. Synovec and L. W. Burgess, “A Novel Raman Waveguide Detector for Liquid Chromatography,” Anal. Chem., 71, 20, 1999.
  10. P.G. Vahey, S.H. Park, B.J. Marquardt, Y. Xia, L.W. Burgess and R.E. Synovec, “Development of a Positive Pressure Driven Sub-Nanoliter Injection Technique for Micro-Fabricated Open Tubular Liquid Chromatography,” Talanta, 51, 1205, 2000.
  11. B.J. Marquardt*, T. Le and L.W. Burgess, “Demonstration of a High-Precision Optical Probe for Effective Sampling of Solids by Raman Spectroscopy,” SPIE Proceedings, Vol. 4469, August, 2001.
  12. S. Tanikkul, J. Jakmunee, M. Rayanakorn, K. Grudpan, B. J. Marquardt, G. W. Gross, B. J. Prazen, L. W. Burgess, G. D. Christian and R.E. Synovec, “Characterization and Use of a Raman Liquid-Core Waveguide Sensor Using Preconcentration Principles,” Talanta, 59(4), 809, 2003.
  13. B.J. Marquardt, J.P. Wold, “Raman analysis of fish: A Potential Method for Rapid Quality Screening,” Lebensmittel-Wissenschaft und –Technologie, 37(1), 1, 2004.
  14. S. M. Drew, J. E. Mann, B. J. Marquardt, K. R. Mann, “A Humidity Sensor Based on Vapoluminescent Platinum(II) Double Salt  Materials,” Sensors and Actuators (B), B97(2-3), 307, 2004.
  15. J. P. Wold, B. J. Marquardt, B. K. Dable, D. Robb, B. Hatlen, ” Rapid quantification of carotenoids and fat in Atlantic salmon (Salmo salar L.) by Raman spectroscopy and chemometrics,” Appl. Spectrosc., 58(4), 395, 2004.
  16. L. A. Touryan, M. J. Lochhead, B. J. Marquardt, V. Vogel, ” Sequential layering of inorganic nanocomposites: switching the crystal morphology using trivalent ions,” Nature Materials, 3(4), 239, 2004.
  17. J. Koschwanez, M. Holl, B. J. Marquardt, J. Dragavon, L. W. Burgess, D. Meldrum, ”Identification of budding yeast using a fiber-optic imaging bundle,” Rev, Sci. Instr., 75(5), 1363, 2004.
  18. T. M. Battaglia, E. E. Dunn, M. D. Lilley, J. Holloway, B. K. Dable, B. J. Marquardt, K. S. Booksh, ”Development of an In-situ Fiber Optic Raman System to Monitor Hydrothermal Vents,” Analyst, 129(7), 606, 2004.
  19. M.V. Koch and B.J Marquardt, “Impact of Microinstrumentation on Process Analytical Technology (PAT). A Consortium Approach,” PAT--The Journal of Process Analytical Technology, 1(2), 12, 2004.
  20. V. Nagarajan, B. J. Marquardt, “Spectroscopic Imaging of Protein Crystals in Crystallization Drops,” J. of Func. And Struct. Genomics, 6(23), 203, 2005.
  21. A. E. Moe, S. Marx, N. Banani, M. Liu, B. Marquardt, and D. M. Wilson, “Improvements in LED-based Fluorescence Analysis Systems,” Sensors and Actuators B, 111-112, 230, 2005.
  22. B. K. Dable, K. S. Booksh, B. J. Marquardt*,” Rapid Multivariate Curve Resolution Applied to Near Real-Time Process Monitoring with HPLC/Raman Data,” Anal. Chimica Acta, 544(1-2), 71, 2005.
  23. N. K. Afseth, V.H. Segtnan, B.J. Marquardt, and J.P. Wold, “Raman and Near Infrared Spectroscopy for Quantification of Fat Composition in a Complex Food Model System,” Appl. Spectrosc, 59(11), 1324, 2005.
  24. B. K. Dable,  B. J. Marquardt,* ”Characterization and Quantitation o a Tertiary Mixture of Salts by Raman Spectroscopy in Simulated Hydrothermal Vent Fluid,” App. Spectrosc, 60(7), 773, 2006.
  25. B. J. Marquardt, “Application of On-Line Raman Spectroscopy to Characterize and Optimize a Continuous Microreactor,” (Eds) Koch, M.V.; VandenBussche, K.M.; and Chrisman, R.W., Micro Instrumentation for High Throughput Experimentation and Process Intensification – a Tool for PAT, Wiley-VCH, Chapter 9.2, 2007.
  26. K. R. Mann, J. R. Burney, K. A. McGee, B. J. Marquardt, “Crystalline Oxygen Sensors that Contain Ruthenium Complexes,” JACS, 129(49), 15092, 2007.
  27. N. K. Afseth, B.J. Marquardt, and J.P. Wold, “A Chromatographic Approach for Fluorescence Rejection in Raman Analysis,” Appl. Spectrosc, 61(12), 1283, 2007.
  28. K.A. McGee, B.J. Marquardt and K.R. Mann, “Concurrent Sensing of Benzene and Oxygen by a Crystalline Salt of Tris(5,6-dimethyl-1,10 phenanthroline) ruthenium(II)”, Inorg. Chem., 47, 9143, 2008.
  29. C. Smith, C. Branham, B. Marquardt, K. Mann, “Oxygen Gas Sensing by Luminescence Queching with Crystals of Cu(xantphos)(phen)+ Complexes”, JACS, 132(40), 14079-14085, 2010.
  30. E. Gunn, L. Wong, C.W. Branham, B. Marquardt and B. Kahr, “Extinction mapping of polycrystalline patterns,” CrystEngComm, 13(4), 1123-1126, 2011.
  31. T. Dearing, W. Thompson, C. Rechsteiner and B.J. Marquardt, “Characterization of Crude Oil Products Using the Data Fusion of Process Raman, IR and NMR Spectra,” Appl. Spectrosc., 65(2), 181-186, 2011.

     
The Marquardt Group || Applied Physics Laboratory || University of Washington