Abstract: The antifouling of marine facilities placed below the waterline is a key constraint to the development of the marine economy. Currently, commercial Cu₂O-based antifouling coatings still have defects such as agglomeration, oxidation, short duration and high dosage. For this reason, we developed for the first time a triple antifouling system consisting of Cu₂O@poly(NIPAM-co-DAm) (Cu₂O@PND) dynamic redox microgels triggered by copper ions and polydimethylsiloxane (PDMS). The catechol groups of PND nanogels can chelate Cu²⁺ and reduce it in situ to obtain Cu₂O@PND microgels, which guarantees the stable release of Cu⁺. Furthermore, Cu₂O remains stable and free from oxidation because of the electron transfer between PND and Cu²⁺. Finally, superior antifouling performance was achieved by combining the stable Cu⁺ released from Cu₂O, in situ conversion of PND to hydrogel, and its oxidation to produce active substances and H₂O₂, and PDMS coating with low surface energy.

Key words: Hydrogel, Copper ions, Dynamic redox, Silicone, Efficient-sustainable release, Antibacterial