Biosurface Facilities Instrumentation

FTIR instrument and Continuum Microscope

  • Ataka, K., Kottke, T. & Heberle, J. Thinner, Smaller, Faster: IR Techniques To Probe the Functionality of Biological and Biomimetic Systems. Angew. Chem. Int. Ed. 49 (2010).
  • Bogomolny, E. et al. Attenuated total reflectance spectroscopy: a promising technique for early detection of premalignancy. The Analyst, doi:10.1039/b920591h (2010).
  • Bakker, J. M., Aleese, L. M., Helden, G. v. & Meijer, G. The infrared absorption spectrum of the gas phase neutral benzoic acid monomer and dimer. JOURNAL OF CHEMICAL PHYSICS 119, 11180-11185 (2003).


  • Andersson, O., Larsson, A., Ekblad, T. & Liedberg, B. Gradient Hydrogel Matrix for Microarray and Biosensor Applications: An Imaging SPR Study. Biomacromolecules 10, 142-148 (2009).
  • Arima, Y., Toda, M. & Iwata, H. Complement activation on surfaces modified with ethylene glycol units. Biomaterials 29, 551-560 (2007).
  • Blow, N. Proteins and proteomics: life on the surface. nature methods 6, 389-393 (2009).


  • Andersson,M.B.O. and Blomberg,L.G. A miniaturized evaporative light scattering detector for application with packed microcolumn high-performance liquid chromatography. J. Microcolumn Sep., 10, 249-254 (1998).
  • Heron,S., Maloumbi,M.-G., Dreux,M., Verette,E. and Tchapla,A. Method development for a quantitative analysis performed without any standard using an evaporative light-scattering detector. J. Chromatogr. A, 1161, 152-156 (2007).
  • Stolyhwo,A., Colin,H. and Guiochon,G. Use of light scattering as a detector principle in liquid chromatography. J. Chromatogr., 265, 1-18 (1983).