Spin-coated methacrylic acid copolymer thin films for covalent immobilization of small molecules on surface plasmon resonance substrates

Hydrophilic copolymers of methacrylic acid and ethylene glycol dimethacrylate are simply and rapidly prepared as thin films by spin-coating on gold-coated glass slides with a concurrent photo-crosslinking step. Coating techniques were optimized for use on gold surfaces both separately and as part of surface plasmon resonance (SPR) sensor chips. The population of carboxylic acid functional groups as binding sites in the polymer matrix, as reflected in the corresponding hydrophilicity, could be easily adjusted through changes to the stoichiometric ratio of the monomers, allowing for good control of immobilization capacity. The polymers used adhered to the gold surfaces both with and without use of thiol moieties. Coating thickness was measured by ellipsometry and coatings of 30–40 nm thickness were routinely achieved on gold-coated slides. This dimension is dependent on the spin speed and the viscosity of the polymerization mixture applied. The polymers were further characterized by contact angle measurements and infrared spectroscopy before being applied to immobilization of the steroid cortisol in a BIAcore SPR instrument, where binding to a monoclonal antibody was studied and the surface coatings optimized for maximum specific binding capacity. Optimized surfaces could be regenerated and re-used, and have potential applications as immobilization matrices in plasmonic biosensors with a very rapid coating technique.

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