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Multifunctional metal–organic frameworks as promising nanomaterials for antimicrobial strategies

Qianjin Li, Fei Xing, Wenting Wu, Man Zhe, Wenqian Zhang, Lü Qin, Liping Huang, Longmei Zhao, Rui Wang, Ming‐Hui Fan, Chen‐Yu Zou, Weiqiang Duan, Jesse Li‐Ling, Huiqi Xie

2025Burns & Trauma26 citationsDOIOpen Access PDF

Abstract

Bacterial infections pose a serious threat to human health. While antibiotics have been effective in treating bacterial infectious diseases, antibiotic resistance significantly reduces their effectiveness. Therefore, it is crucial to develop new and effective antimicrobial strategies. Metal-organic frameworks (MOFs) have become ideal nanomaterials for various antimicrobial applications due to their crystalline porous structure, tunable size, good mechanical stability, large surface area, and chemical stability. Importantly, the performance of MOFs can be adjusted by changing the synthesis steps and conditions. Pure MOFs can release metal ions to modulate cellular behaviors and kill various microorganisms. Additionally, MOFs can act as carriers for delivering antimicrobial agents in a desired manner. Importantly, the performance of MOFs can be adjusted by changing the synthesis steps and conditions. Furthermore, certain types of MOFs can be combined with traditional photothermal or other physical stimuli to achieve broad-spectrum antimicrobial activity. Recently an increasing number of researchers have conducted many studies on applying various MOFs for diseases caused by bacterial infections. Based on this, we perform this study to report the current status of MOF-based antimicrobial strategy. In addition, we also discussed some challenges that MOFs currently face in biomedical applications, such as biocompatibility and controlled release capabilities. Although these challenges currently limit their widespread use, we believe that with further research and development, new MOFs with higher biocompatibility and targeting capabilities can provide diversified treatment strategies for various diseases caused by bacterial infections.

Topics & Concepts

NanotechnologyBiocompatibilityAntimicrobialPhotothermal therapyMetal-organic frameworkNanomaterialsMedicineBiochemical engineeringMaterials scienceMicrobiologyChemistryBiologyAdsorptionEngineeringOrganic chemistryMetallurgyMetal-Organic Frameworks: Synthesis and ApplicationsNanoplatforms for cancer theranosticsMXene and MAX Phase Materials