G. Gauglitz, A. Brecht, G. Kraus, and W. Nahm. Chemical and biochemical sensors based on interferometry at thin (multi-) layers. In Sensors and Actuators B: Chemical, vol. 11(1) , pp. 21-27, 1993
Spectral interferometry is presented as a tool to monitor the swelling of polymers caused by organic gases or hydrocarbons in waste water as well as the adsorption and interaction of antigens and antibodies in immunoreactions. Modern diode-array technology allows the consequent observation of changes in optical pathlength on a fractional nanometer scale with subsecond repetition times. The theory of multiple-reflection principles in white-light interferometry determines the possibilities and limitations of this method. The optical set-up and some applications in gas sensing and label-free immunosensing are discussed with respect to the sensitivity, selectivity and limits of detection at present.
Oligomers with a dimethylsiloxane backbone coated as thin films on different substrate surfaces were thermally as well as photochemically cross-linked. The structure and the degree of cross-linking were examined spectroscopically. Diffusion of different gases in the thin polymer films was measured by time resolved infrared ATR-spectroscopy. The process of diffusion is almost immediately followed by a swelling of the polymer proportional to gas concentration. Therefore diffusion may also be measured by spectral interferometry, giving a very sensitive device for optical sensing of hydrocarbons. Furthermore, diffusion in polymers may be measured very accurately by spatially resolved UV/Vis-spectroscopy. Diffusion coefficients may also be determined indirectly from the equilibrium of monomers and excimers indicated by the fluorescence intensities. This method allows the in situ observation of the cross-linking process.
Conference Contributions (1)
W. Nahm, H. Gehring, E. Konecny, and P. Schmucker. Messung der Atemalkoholkonzentration zur Beurteilung des Einschwemmsyndroms bei urologischen Eingriffen unter Vollnarkose.. In Biomedizinische Technik / Biomedical Engineering, vol. 38(s1) , pp. 423-424, 1993