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Advancement in various fields ranging from biomaterials to cell biology is fostered by the evolution in patterning technology, that delivers smaller and smaller features exhibiting distinct (bio)chemical contrast and addressability. We have recently introduced a simple and versatile patterning technique based on selective adsorption from aqueous media of multifunctional organic molecules onto oxide...
Microcontact printing (μcP) is a cost effective and simple method to create chemically micropatterned surfaces for cell biological applications. We have combined the technique with the spontaneous molecular assembly of a polycationic PEG-grafted copolymer, poly-l-lysine-g-poly(ethylene glycol) (PLL-g-PEG). PLL-g-PEG with ω-functionalized PEG chains was print-transferred onto tissue culture polystyrene...
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