Ag@Zn‐MOF Composites: A Dual Function Material for Luminescent Detection, Dose Reliant Photodegradation of Ethion Insecticide and Enhanced Bioactivity

ABSTRACT This work reports the synthesis and detailed characterization of a zinc‐based metal–organic framework, [Zn (Cei)] n (Zn‐MOF), constructed using bis(2‐carboxyethyl) isocyanurate (H 2 Cei) as the ligand, alongside its silver‐doped variants (Ag@Zn‐MOF‐n, where n = 1–3). Comprehensive analyses, including XPS, PXRD, SEM, EDX mapping, Raman spectroscopy, and FTIR, confirmed the successful incorporation of silver ions into the Zn‐MOF framework. The photoluminescent sensing capabilities of Ag@Zn‐MOF‐2 were explored for detecting dimethoate (DMA) and ethion (ETH) insecticides, achieving excellent quenching efficiencies, with detection limits of 2.109 ppm and 2.229 ppm, respectively. The photocatalytic activity of Ag@Zn‐MOF‐2 was also investigated for the degradation of the insecticides under visible light, where Ag@Zn‐MOF‐2 demonstrated a significantly higher degradation efficiency (91.37%) for ETH compared to the undoped Zn‐MOF (31.89%). Antimicrobial studies revealed that Ag@Zn‐MOF‐2 exhibited improved activity against Gram‐positive Staphylococcus aureus and Gram‐negative Escherichia coli , with MIC and MBC values of ≤128 mg/L for S. aureus and ≤256 mg/L for E. coli , surpassing the performance of the undoped Zn‐MOF. Furthermore, Ag@Zn‐MOF‐2 showed enhanced antioxidant activity in the DPPH radical scavenging assay compared to the parent Zn‐MOF. These results underscore the versatility of Ag@Zn‐MOF‐2 as a multifunctional material for applications in environmental remediation, pollutant detection, and in the field of biological activity.