Superoxide Radical-Mediated Self-Synthesized Au/MoO 3- x Hybrids with Enhanced Peroxidase-like Activity and Photothermal Effect for Anti-MRSA Therapy.

A rapid increase in methicillin-resistant Staphylococcus aureus (MRSA) induced infection has been noticed in recent years and the biofilm formed by MRSA further delays wound healing, causing a high mortality rate. Hence, a safe and effective superoxide radical (O 2 •- ) mediated self-synthesis strategy is developed to prepare Au-doped MoO 3- x (Au/MoO 3- x ) plasmonic-semiconductor hybrid for the elimination of MRSA mediated wound infection. The synthesis mechanism of Au NPs is systematically investigated, proving that O 2 •- plays a key role in reduction of HAuCl 4 into Au NPs in the presence of H 2 O and O 2 . Au-doped MoO 3- x exhibits the improved photothermal conversion efficiency (∼52.40%) compared with MoO 3- x (∼41.11%). Moreover, the peroxidase (POD)-like activity of Au/MoO 3- x hybrid is higher than that of MoO 3- x NPs, resulting in increased yield of highly toxic ·OH. In combination with the enhanced photothermal and POD-like properties, Au/MoO 3- x hybrid achieves efficient elimination of MRSA bacteria with eradication ratio of ∼99.76%. Additionally, the as-prepared Au/MoO 3- x NPs exhibit excellent biosafety, which is verified via in vitro and in vivo experiments. This study provides the basis for exploring MoO 3- x -based hybrids via a green O 2 •- -mediated self-synthesis approach.