期刊
NANOMATERIALS
卷 11, 期 6, 页码 -出版社
MDPI
DOI: 10.3390/nano11061387
关键词
photothermal effect; gold nanostars; silver nanoparticles; antibacterial materials; PVA; photothermal film
类别
资金
- Regione Lombardia (grant POR FESR 2014-2020-Call HUB Ricerca e Innovazione)
This study successfully prepared PVA films embedded with silver nanoparticles, NIR-absorbing photothermal gold nanostars, or a combination of both. The slow but prolonged release of silver ions from the films exhibited strong antimicrobial effects against bacteria, while the films also showed rapid hyperthermal bactericidal action upon NIR laser irradiation. The biocompatibility of all films was confirmed, with negligible impact on human fibroblast viability observed.
PVA films with embedded either silver nanoparticles (AgNP), NIR-absorbing photothermal gold nanostars (GNS), or mixed AgNP+GNS were prepared in this research. The optimal conditions to obtain stable AgNP+GNS films with intact, long lasting photothermal GNS were obtained. These require coating of GNS with a thiolated polyethylene glycol (PEG) terminated with a carboxylic acid function, acting as reticulant in the film formation. In the mixed AgNP+GNS films, the total noble metal content is w/w and in the Ag films < 0.025% w/w. The slow but prolonged Ag+ release from film-embedded AgNP (8-11% of total Ag released after 24 h, in the mixed films) results in a very strong microbicidal effect against planktonic Escherichia coli and Staphylococcus aureus bacterial strains (the release of Au from films is instead negligible). Beside this intrinsic effect, the mixed films also exert an on-demand, fast hyperthermal bactericidal action, switched on by NIR laser irradiation (800 nm, i.e., inside the biotransparent window) of the localized surface plasmon resonance (LSPR) absorption bands of GNS. Temperature increases of 30 degrees C are obtained using irradiances as low as 0.27 W/cm(2). Moreover, 80-90% death on both strains was observed in bacteria in contact with the GNS-containing films, after 30 min of irradiation. Finally, the biocompatibility of all films was verified on human fibroblasts, finding negligible viability decrease in all cases.
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