Menzies, Donna J.; Gengenbach, Thomas; Forsythe, John S.; Birbilis, Nick; Johnson, Graham; Charles, Christine; McFarland, Gail; Williams, Richard J; Fong, Celesta; Leech, P W; Muir, Benjamin W.
Micropatterning of surfaces with varying chemical, physical and topographical properties usually requires a number of fabrication steps. Herein, we describe a micropatterning technique based on plasma enhanced chemical vapour deposition (PECVD) that deposits both protein resistant and protein repellent surface chemistries in a single step. The resulting multifunctional, selective surface chemistries are capable of spatially controlled protein adhesion, geometric confinement of cells and the...[Show more]
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