F. Bretagnol scite author profile

Summary: In this study, microstructured surfaces are produced by a spatial arrangement of different functional domains by a combination of plasma polymerization and photolithography. Two different kinds of protein and cell adhesive patterns have been alternated with non‐fouling areas. Non‐fouling patterns are made of poly(ethylene oxide) (PEO)‐like polymers obtained by pulsed plasma polymerization of diethylene glycol dimethyl ether, which leads to coatings with a high concentration of ethylene oxide groups (>70%). Fouling surfaces are composed of PEO coatings with a low concentration of ethylene oxide groups (≈40%) and films containing amino groups (from allylamine monomer) obtained by plasma polymerization. High pattern fidelity is demonstrated by ellispometry measurements, whereas XPS and ToF‐SIMS analyses have been used to characterize the surfaces. Experiments with a model protein (bovine serum albumin) and cells (L929 mouse fibroblasts) on patterned surfaces show that proteins and cells only adhere on the patterns, whereas the background stays uncovered.

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Micro-patterned surfaces based on plasma modification of PEO-like coating for biological applications

Bretagnol

Kylián

Hasiwa

et al. 2007

Sensors and Actuators B: Chemical

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Surface modification of polyethylene powder by nitrogen and ammonia low pressure plasma in a fluidized bed reactor

Bretagnol

Tatoulian

Arefi‐Khonsari

et al. 2004

Reactive and Functional Polymers

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Micro-stamped surfaces for the patterned growth of neural stem cells

et al. 2008

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F. Bretagnol

Fouling and non-fouling surfaces produced by plasma polymerization of ethylene oxide monomer

Functional Micropatterned Surfaces by Combination of Plasma Polymerization and Lift‐Off Processes

Micro-patterned surfaces based on plasma modification of PEO-like coating for biological applications

Surface modification of polyethylene powder by nitrogen and ammonia low pressure plasma in a fluidized bed reactor

Micro-stamped surfaces for the patterned growth of neural stem cells

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