Formation of antifouling functional coating from deposition of a zwitterionic-co-nonionic polymer via “grafting to” approach

Publication date: Available online 10 June 2019Source: Journal of Saudi Chemical SocietyAuthor(s): Chaoqun Wu, Yudan Zhou, Haitao Wang, Jianhua Hu, Xiaoliang WangAbstractWe develop a new process for the preparation of synergistic antifouling functional coatings on gold surfaces via a “grafting to” approach. The strategy includes a synthetic step of polymer brushes that consist of poly (ethylene glycol) (PEG) and zwitterionic side chains via a typical reversible-addition fragmentation chain transfer (RAFT) polymerization process, and a subsequent deposition of the polymer brushes onto a gold substrate. The presence of PEG and zwitterion chains on these polymer brush-coated gold surfaces has been proved to have a synergistic effect on the final antifouling property of the coating. PEG chains lower the electrostatic repulsion between zwitterionic polymer chains and increase their graft density on gold surfaces, while zwitterionic polymer effectively improve the antifouling property that is offered by PEG chains alone. Protein adsorption and cell attachment assays tests are conducted to confirm that this copolymer layer on gold surface has a pronounced resistance against proteins such as Bovine serum albumin and Lysozyme. Importantly, the antifouling property can be systematically adjusted by varying the molar ratio of PEG to zwitterionic chains in the final coating copolymer.Graphical abstract
Source: Journal of Saudi Chemical Society - Category: Chemistry Source Type: research