The Chemistry of Bioinspired Catechol(amine)-Based Coatings

Surface coatings are widely used for the protection of underlying materials from erosion or contamination by the external environment, with biomimetic organic coatings based on catecholamine chemistry gaining prominence in recent years. Such coatings have found use in the biomedical field, e.g., in diagnostics, implant manufacturing, and biosensing, with coatings based on polydopamine (PDA) being the most popular. This Review aims to summarize the chemistry of catechol(amine) coatings, in particular the adhesion and cohesion properties of catecholamine-based coatings. This will allow for the design and synthesis of new polymers and coating materials in a more rational manner, enabling the selection of parameters and conditions to precisely control the structure of the materials formed. Particular attention is paid to the formation mechanism, structure, and variables affecting the properties of PDA, which is the most widely reported catechol(amine) coating. The use of other catechol(amine) precursors to synthesize biomimetic coatings is also discussed. A summary of the different methods reported in the literature to effect specific chemical properties on catechol(amine) coatings will allow the reader to best choose the technique to tailor coating properties for specific applications.