bullet onSensiQ®: Affordable Surface Plasmon Resonance: Publications

  • Detecting the Ovarian Cancer Biomarker CA-125 with a Surface Plasmon Resonance Immunoassay. Rebecca J Whelan and Matthew Thayer, Oberlin College, Oberlin, Ohio
  • Measurement of Methamphetamine on Surfaces using Surface Plasmon Resonance, Jerry Smith, National Institute of Occupational Safety and Health (NIOSH) Center for Disease Control (CDC)
  • 2007 Global Benchmark Study, Presented at Dipia 2007, David Myszka, University of Utah, John Quinn, ICx Nomadics Inc, et al.
  • Kinetic Analysis of Fab Binding to Immobilized Antigen using SensiQ. John Quinn, Aaron Martin and Jeffery Havard, ICx Nomadics Inc, Oklahoma City, OK.
  • Kinetic Analysis of Protein-Protein Interactions. John Quinn, Aaron Martin and Jeffery Havard, Nomadics Inc, Oklahoma City, OK.
  • Direct Immobilization of Antigen for Kinetic Analysis. John Quinn, Aaron Martin and Jeff Havard, ICx Nomadics Inc, Research Parkway, Oklahoma City, OK.
  • SensiQ- Affinity Capture for monoclonal Antibody Characterization. John Quinn, Aaron Martin, Jeff Havard and Elizabeth Flood, ICx Nomadics Inc, Oklahoma City, OK.
  • Affinity Analysis of Small Molecule Interactions. John Quinn, Aaron Martin, Jeff Havard and Elizabeth Flood, ICx Nomadics Inc, 800 Research Parkway, Suite 100, Oklahoma City, OK, 73104

    • SPR Publications

    1. Performance of the Spreeta 2000 integrated surface plasmon resonance affinity sensor. T.M. Chinowsky, J.G. Quinn, D.U. Bartholomew, R. Kaiser
    2. Surface Plasmon Resonance-based Sensors To Identify cis-Regulatory Elements. Lin, L., Harris, J.W., Thompson, H.G.R., and Brody, J.P. Anal. Chem., 76, 22, 6555 - 6559, 2004, 10.1021/ac049371e
    3. An In-Depth Analysis of Electric Cell-Substrate Impedance Sensing To Study the Attachment and Spreading of Mammalian Cells. Xiao, C., Lachance, B., Sunahara, G., and Luong, J.H.T. Anal. Chem., 74, 6, 1333 - 1339, 2002, 10.1021/ac011104a
    4. Analysis of Biomolecular Interactions Using a Miniaturized Surface Plasmon Resonance Sensor. Whelan, R.J., Wohland, T., Neumann, L., Huang, B., Kobilka, B.K., and Zare, R.N. Anal. Chem., 74, 17, 4570 - 4576, 2002, 10.1021/ac025669y
    5. Surface Plasmon Resonance Detection for Capillary Electrophoresis Separations. Whelan, R.J. and Zare, R.N. Anal. Chem., 75, 6, 1542 - 1547, 2003, 10.1021/ac0263521
    6. Refractive Indices of Water and Aqueous Electrolyte Solutions under High Magnetic Fields Hosoda, H., Mori, H., Sogoshi, N., Nagasawa, A., and Nakabayashi, S. J. Phys. Chem. A, 108, 9, 1461 - 1464, 2004, 10.1021/jp0310145
    7. Protein-Ligand Interactions at Poly(amidoamine) Dendrimer Monolayers on Gold Hong, M.-Y., Yoon, H.C., and Kim, H.-S. Langmuir, 19, 2, 416 - 421, 2003, 10.1021/la020431q
    8. Kinetics and Mechanism of Substitution Reactions between Myoglobin and Activated Self-Assembled Monolayers Investigated Using Surface Plasmon Resonance Deckert, A.A., Lesko, J., Todaro, S., Doyle, M., and Delaney, C. Langmuir, 18, 21, 8156 - 8160, 2002, 10.1021/la025767e
    9. Development of a surface plasmon resonance sensor for commercial applications. J. Melendez, R. Carr, D. U. Bartholomew, H. Taneja, S. Yee, C. Jung, C. Furlong, Sensors and Actuators–B 38–39 (1997) 375–379.
    10. Is biosensor a viable method for food allergen detection? Isa Mohammad, Wayne Mullett, Edward P.C. Lai, Jupiter M. Yeung. Analytica Chimica Acta 444 (2001) 97–102.
    11. Improving surface plasmon resonance sensor performance using critical angle compensation. Timothy Chinowsky, Anita Strong, Dwight Bartholomew, Scott Jorgenson–Soelberg, Thomas Notides, Clement Furlong and Sinclair Yee. SPIE 3857 (1999) 104–113.

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