Litcius/Paper detail

Highly Conjugated Nanozyme with Non Coordination Saturation for Cascaded Enhanced POD Reaction Driving Antibacterial Therapy

Mutian Yang, Youxing Liu, Ludan Zhang, Yuping Qian, Ningyu Li, Guan-Meng Zhang, Yuxiang Hu, Xin Li, Yanjun Ge, Yang Peng, Jinna Ren, Yong Jiang, Shaojun Guo, Yuguang Wang

2024Advanced Functional Materials55 citationsDOIOpen Access PDF

Abstract

Abstract The misuse of antibiotics leads to emergence of drug‐resistant bacteria. Developing artificial nanozymes with high stability and excellent catalytic performance is desirable to substitute for antibiotics, but still remains huge challenge. Herein, the study reports a new strategy for cascaded enhanced peroxidase (POD) reaction driving antibacterial therapy via constructing 2D conjugated metal‐organic frameworks (MOFs) with non coordination saturation as nanozyme. It is demonstrated that the non coordination saturation Cu atom promotes the adsorption of H 2 O 2 , followed by the Cu‐HHTP MOFs with high conjugated structure can enhance the photogenerated electron transfer for ·OH generation in POD reaction. The sequential enhancement of substrate adsorption and decomposition endows the as‐made Cu‐HHTP MOFs with outstanding antibacterial property of >99.9999% elimination with a concentration only 1/133 that of traditional nanozyme. In addition, the study also certifies its excellent in vivo antimicrobial activity and biocompatibility, indicating the therapeutic potential for infections by drug‐resistant bacteria.

Topics & Concepts

Materials scienceConjugated systemPoint of deliverySaturation (graph theory)NanotechnologyCombinatorial chemistryComposite materialPolymerBotanyCombinatoricsBiologyChemistryMathematicsAdvanced Nanomaterials in CatalysisNanoplatforms for cancer theranosticsNanocluster Synthesis and Applications