Journal
MATERIALS
Volume 16, Issue 16, Pages -Publisher
MDPI
DOI: 10.3390/ma16165505
Keywords
antibrowning; Ag-CeO2 composite; silver ion release rate; hydroxyl radicals; antibacterial property
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Nanosized Ag and CeO2 particles were physically mixed to obtain composite antibacterial agents. Comparative experiments showed that the nanocomposites exhibited improved antibacterial activity and a synergistic effect between Ag and CeO2 was observed. The presence of CeO2 suppressed the release rate of silver ions and provided the composite with antibrowning ability, while the interaction between nanosized Ag and nanosized CeO2 generated more hydroxyl radicals (•OH). Hydroxyl radicals played an important role in causing bacterial death for the Ag-CeO2 composite antibacterial agent.
Nanosized Ag and CeO2 particles obtained through the hydrothermal method were physically mixed to obtain composite antibacterial agents. The comparative experiments of antibacterial properties showed that the antibacterial activity of the nanocomposites was improved compared to the nanoparticles alone, which indicated that the synergistic antibacterial effect existed between Ag and CeO2. On the one hand, ICP-MS results showed that the existence of CeO2 suppressed the silver ion release rate and provided the composite with the ability of antibrowning; on the other, EPR data indicated that more hydroxyl radicals (center dot OH) were generated by the interfacial interaction between nanosized Ag and nanosized CeO2. Hence, for the Ag-CeO2 composite antibacterial agent, hydroxyl radicals played an important role in causing bacterial death.
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