Fabienne Faÿ scite author profile

Silicone coatings with enhanced antifouling behavior towards bacteria, diatoms, and a diatom dominated slime were prepared by incorporating PEO-silane amphiphiles with varied siloxane tether lengths (a-c): α-(EtO)3Si(CH2)2-oligodimethylsiloxanen-block-poly(ethylene oxide)8-OCH3 [n = 0 (a), 4 (b), and 13 (c)]. Three modified silicone coatings (A-C) were prepared by the acid-catalyzed sol-gel cross-linking of a-c, respectively, each with a stoichiometric 2:3 M ratio of α, ω-bis(Si-OH)polydimethylsiloxane (Mn = 3,000 g mol(-1)). The coatings were exposed to the marine bacterium Bacillus sp.416 and the diatom (microalga) Cylindrotheca closterium, as well as a mixed community of Bacillus sp. and C. closterium. In addition, in situ microfouling was assessed by maintaining the coatings in the Atlantic Ocean. Under all test conditions, biofouling was reduced to the highest extent on coating C which was prepared with the PEO-silane amphiphile having the longest siloxane tether length (c).

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Development of environmentally friendly antifouling paints using biodegradable polymer and lower toxic substances

Carteau

Vallée‐Réhel

Linossier

et al. 2014

Progress in Organic Coatings

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Fabienne Faÿ

Alteration of bacterial adhesion induced by the substrate stiffness

Bacteria and diatom resistance of silicones modified with PEO-silane amphiphiles

Development of environmentally friendly antifouling paints using biodegradable polymer and lower toxic substances

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