Bacterial colonization on the surface of medical implanted devices and bacterial infection‐induced biofilm have been a lethal risk for patients of clinical treatment. While antibacterial coatings fabricated by layer‐by‐layer (LBL)… Click to show full abstract
Bacterial colonization on the surface of medical implanted devices and bacterial infection‐induced biofilm have been a lethal risk for patients of clinical treatment. While antibacterial coatings fabricated by layer‐by‐layer (LBL) assembly techniques have been well explored, the facile preparation of substrate‐independent smart antibacterial coatings with on‐demand antibiotics release profile and excellent antibacterial performance is still urgently needed. In this work, this goal is addressed by LBL assembly fabrication of robust antibacterial coatings using naturally occurring and commercially available building blocks (i.e., aminoglycosides, 5,6‐dihydroxyindole, and formylphenylboronic acid) via the subsequentially performed mussel‐inspired polymerization and dynamic covalent chemistries. The resulting antibacterial coatings on different substates all presente a dynamic feature (i.e., pH‐responsive), on‐demand antibiotics release properties, and highly effective antibacterial performance both in vitro and in vivo. It is envisioned that this work can expand the scope of LBL assembly technique toward the next generation of robust and universal antibacterial coating materials by using natural building blocks and readily available chemistries.
               
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