Silver-Loaded Titania-Based Metal-Organic Frameworks as a Platform for Silver Ion Release for Antibacterial Applications
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Abstract
Conventional Ag-decorated TiO<inf>2</inf>coatings suffer from low adsorption capacity and burst release kinetics, limiting long-term antibacterial efficacy and risking cytotoxicity. An entirely different payload release approach can be based on metal–organic frameworks (MOFs), which offer tunable porosity, high surface area, and internal diffusion channels. Here, we report a thermally stabilized Ti-based MOF [NH<inf>2</inf>-MIL-125(Ti)] functionalized with Ag+via reactive deposition, enabling high Ag loading (∼14.7 wt %) and sustained release. Annealing at 250 °C enhances aqueous stability, allowing diffusion-governed Ag+delivery over >48 h, with 77% of the Ag still present in the MOF after a 24 h release. The system exhibits dose-dependent antibacterial activity in powders and comparable efficacy in coatings, with a more gradual release profile. This scalable platform is promising for long-acting coatings, wound interfaces, and implantable materials. © 2025 Elsevier B.V., All rights reserved.
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Antibacterial Activity, Metal–Organic Frameworks (MOFs), NH2-MIL-125, Silver, Silver, Titanium, Titanium Dioxide, Anti-Bacterial Agents, Metal-Organic Frameworks, Silver, Titanium, Titanium Dioxide, Crystalline Materials, Diffusion Coatings, Interfaces (Materials), Metal Ions, Organometallics, Silver Compounds, Titanium Dioxide, Adsorption Capacities, Ag +, Anti-Bacterial Activity, Antibacterials, Metalorganic Frameworks (Mofs), Metal−Organic-Framework, NH2-MIL-125, Silver Ion Release, TiO₂, Titanium-Based, Silver, Antiinfective Agent, Metal Organic Framework, Silver, Titanium, Titanium Dioxide, Chemistry, Drug Effect, Drug Release, Escherichia Coli, Microbial Sensitivity Test, Porosity, Staphylococcus Aureus, Anti-Bacterial Agents, Drug Liberation, Metal-Organic Frameworks, Microbial Sensitivity Tests, Porosity, Titanium
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25
Issue
33
Start Page
12547
End Page
12553
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