NIR-II-enhanced single-atom-nanozyme for sustainable accelerating bacteria-infected wound healing

We developed a Co single-atom catalyst (Co-SAC) containing atomically dispersed Co atoms that exhibited intrinsic oxidase-like activity for sustainable antibacterial activity and wound healing. Benefiting from the good photothermal effect, the Co-SAC nanozyme presented enhanced oxidase-like activity and antibacterial efficiency via the generation of heat and superoxide radicals under near-infrared II laser light (1064 nm). In virtue of the outstanding oxidase-like activity, the Co-SAC nanozyme could eliminate pathogenic bacteria and disrupt the formation of biofilm without any additional H2O2. The accelerated wound healing was achieved in an in vivo wound model infected by S. aureus without significant side effects, which showed promising applications in antibacterials and wound healing. Such a strategy would possibly open a new window for translational medicine of Co-SAC nanozyme.

Automated summary

We developed a Co single-atom catalyst (Co-SAC) with atomically dispersed Co atoms, which exhibited intrinsic oxidase-like activity for sustainable antibacterial activity and wound healing. The Co-SAC nanozyme presented enhanced oxidase-like activity and antibacterial efficiency via good photothermal effect under near-infrared II laser light. It could eliminate pathogenic bacteria and disrupt the formation of biofilm without additional H2O2, promoting accelerated wound healing in an in vivo wound model infected by S. aureus.