New nanocomposite films for biosensors: layer-by-layer adsorbed films of polyelectrolytes, proteins or DNA

Abstract

This report describes the construction of ultrathin multicomponent films with an internal structure on the nanometre scale. In the simplest case, the films are built-up by the subsequent adsorption of polyanions and polycations. They can be fabricated on inorganic substrates such as glass, quartz or silicon wafers, or on various organic materials. The polymeric interlayers can incorporate materials with desired electrical or optical properties. The average thickness of the layers can be fine-tuned with Angstrom precision by the addition of suitable salts. They are temperature stable up to at least 200°C and can be laterally structured using conventional photolithographic techniques. The films provide for a well-defined substrate-independent interface for the immobilization of biological macromolecules, such as proteins or DNA, in their active state. The immobilization of streptavidin enables the controlled attachment of any biotinylated molecule with no resulting loss in its biological activity. Area-selective immobilization provides the possibility of built-in quality control for the fabrication of biosensors with separated reference and sample areas on the same substrate.