Characterization of Chemically and Topographically Modified Siloxane Elastomer for Controlled Cell Growth

Abstract: A main limitation of biomedical devices is the inability to start, stop, and control cell growth making it crucial to develop biomaterial surfaces that induce a desired cellular response. Micropatterns of ridges and pillars were created in a siloxane elastomer (Dow Corning) by casting against epoxy replicates of a micromachined silicon wafer. Silicone oils were incorporated to determine the change in modulus and surface energy caused by these additives. SEM and white light interference profilometry verified th… Show more

“…Furthermore, the quantity of volatile organics (ethanol) evolved during curing is half that of TEOS 13 . These three PDMS elastomers are characterized by a high water CA, a low critical surface energy, and low elastic modulus values. ,,,,,− …”

Fouling Release Coatings: A Nontoxic Alternative to Biocidal Antifouling Coatings

“…Furthermore, the quantity of volatile organics (ethanol) evolved during curing is half that of TEOS 13 . These three PDMS elastomers are characterized by a high water CA, a low critical surface energy, and low elastic modulus values. ,,,,,− …”

Fouling Release Coatings: A Nontoxic Alternative to Biocidal Antifouling Coatings

Microtopographic Cues for Settlement of Zoospores of the Green Fouling Alga Enteromorpha