Surface characterization and platelet compatibility evaluation of binary mixed self-assembled monolayers containing novel sulfonic acid terminated alkanethiol

Abstract

The interactions between the biological environment and artificial surface are greatly influenced by the surface characteristics of substrate. Self-assembled monolayer prepared by long-chain alkanethiol on gold has been considered as a good model surface to study the effects of surface characteristics upon biological responses. In this study, two different series of mixed SAMs prepared by lab-synthesized sulfonic acid terminated alkanethiol with hydrophobic –CH 3 or hydrophilic –OH terminated one were characterized. It was noted that the surface hydrophilicity of –SO 3H/–CH 3 mixed SAMs was increased with the solution mole fraction of –SO 3H terminated thiol. However, the surfaces were all hydrophilic on the –SO 3H/–OH mixed SAMs. All of these mixed SAMs were “–SO 3H poor” and negatively charged on surface. In vitro platelet adhesion study indicated that –SO 3H/–OH mixed SAMs exhibited a better platelet compatibility than –SO 3H/–CH 3 mixed ones, suggesting a surface with fair hydrophilicity and least negative surface charges might be of potential as a candidate for developing a platelet/blood compatible artificial surface.