TABLE 5.
Application of MOFs-based nanozymes in antibacterial.
| Nanozymes | Enzymatic activity | Targets | Antibacterial mechanisms | Applications | References |
|---|---|---|---|---|---|
| V-POD-M | POD | E. coli, S. aureus | Generate OH | Broad-spectrum antimicrobial agents for non-antibiotic disinfection are used in biomedicine | Yang et al. (2021) |
| AuNCs@PCN | POD | E. coli, S. aureus, MRSA, Ampr E. coli | Generate ROS | Promote the wound healing of diabetic infection | Zhao et al. (2022) |
| ZIF8/Au-GOx NPs | POD | E. coli, S. aureus | Generate ROS, Release of Zn+ | High-efficient sterilization and fast promote wound healing | Wang et al. (2022) |
| Bi-PCN222 | OXD, POD | S. aureus, MRSA | Generate ROS, electron transport chain | Effective disinfection and tissue reconstruction | Wu et al. (2023) |
| ZFMs | POD | ESBL-producing E. coli | Generate ·OH | Biomedicine | Zhong et al. (2023) |
| PM@MIL-88B-Fe/Zn | POD | E. coli, S. aureus | Generate ROS | Accelerate healing of infected wounds | Shi et al. (2023) |
| UsAuNPs/MOF | POD | E. coli, S. aureus | Generate ROS | Accelerate the clinical application of nanocatalytic antibacterial therapy | Hu et al. (2020) |
| MOF@COF | POD | E. coli, S. aureus | Generate OH | Disease treatment | Zhang R. et al. (2021) |
| DSAM | SOD, POD, GPx | MRSA, P. aeruginosa | Generate OH | Eliminates bacteria and relieves persistent inflammation | Mo et al. (2023) |