A novel approach to produce protein nanopatterns by combining nanoimprint lithography and molecular self-assembly

We describe a novel parallel method for the patterning of proteins with nanoscale resolution. Combining nanoimprint lithography (NIL) and molecular assembly patterning by lift-off (MAPL), we produced streptavidin patterns with feature sizes in the order of 100 nm. A stamp is imprinted into a heated PMMA film followed by a dry etching step that converts the topography into a PMMA/Nb2O5 contrast. A biotin functionalized copolymer, poly(L-lysine)-graft-poly(ethylene glycol)-biotin (PLL-g-PEG/PEG-biotin), spontaneously adsorbs on the oxide surfaces. After PMMA lift-off, the background is backfilled with protein-resistant PLL-g-PEG. We show that streptavidin selectively adsorbs on the biotin areas and thus can be used as a universal platform for immobilization of biotin-tagged molecules. This novel process is a parallel patterning method that is fast, reproducible, and economic. The PEG-copolymer can be functionalized with a variety of bioactive groups and thus allows a great flexibility in terms of surface chemistry.