Electrical and Visible Light Dual-Responsive ZnO Nanocomposite with Multiple Wound Healing Capability

Abstract The healing process of open wounds is a competition between cells and bacteria. Therefore, a strategy that can quickly remove bacteria and promote cell proliferation to accelerate wound healing is urgently needed. Inspired by photoelectric synergy tactics, we improved both the optical and electrical response of zinc oxide (ZnO) through the modification of polydopamine (PDA) and reduced graphene oxide (rGO), thus obtaining a ZnO composite named PDA-rGO-ZnO (PrZ). Combined with the photoelectric double stimulation, the sterilization target could be completed from multiple physical levels simultaneously. More importantly, the band gap of ZnO was considerably narrowed by PDA encapsulation. The encapsulated ZnO thus could be effectively excited by pure yellow light (YL) with a moderate long wavelength, which fundamentally improved its safety in exerting photocatalytic antibacterial properties. In addition, we found that electrical stimulation (ES) could not only help to clear bacteria, but also facilitate the formation of new blood vessels. Animal experiments further showed that PrZ efficaciously regulated the immune response around the wound surface, promoted cell proliferation and the formation of collagen fibers, thereby accelerating wound healing.