Abstract
In the present study it is shown that streptavidin-containing multilayer films with varying numbers of polyelectrolyte spacer layers can be fabricated reproducibly using optimized deposition conditions. Direct alternation of streptavidin and PLB leads to multilayer systems with an average streptavidin thickness of 5.3 nm which is in good agreement with the dimensions of the protein. When the streptavidin layers are spacered by more polyelectrolyte layers the distance between the protein sheets is increased up to e.g. 6.5 nm in the case of (PLB/PSS/PAH/PSS/PLB) as spacer layer. X-ray reflectivity reveals that streptavidin increases the surface roughness of the films probably due to the rigid three-dimensional structure of the protein. The control of surface roughness seems to be essential for a successful multilayer build-up. The property of PLB to provide for multilayer construction by two different interactions (electrostatic and specific) allowed to probe the interpenetration depth of adjacent layers. For the [PLB/(PSS/PL) 2/streptavidin] system an interpenetration depth of about 4 polymer layers corresponding to approximately 3.4 nm has been derived. These data are in agreement with a model for pure polyelectrolyte films obtained from neutron and X-ray reflectivity data.
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