%0 Journal Article
%T Comparative Assessment of Antimicrobial Efficiency of Ionic Silver, Silver Monoxide, and Metallic Silver Incorporated onto an Aluminum Oxide Nanopowder Carrier
%A Agnieszka Maria Jastrz£¿bska
%A Ewa Karwowska
%A Andrzej R. Olszyna
%A Antoni R. Kunicki
%J Journal of Nanoscience
%D 2013
%R 10.1155/2013/263583
%X The present paper provides comparative assessment of antimicrobial efficiency of ionic silver (Ag+), silver monoxide (Ag2O), and metallic silver (Ag) incorporated onto an aluminum oxide nanopowder carrier (Al2O3). The deposition of Ag+ ions, Ag2O nanoparticles, and Ag nanoparticles on an different phases of aluminum oxide nanopowder carrier was realized using consecutive stages of dry sol-gel method. The Al2O3-Ag+, Al2O3-Ag2O, and Al2O3-Ag nanopowders were widely characterized qualitatively and quantitatively by SEM, physical nitrogen sorption and XRD analyses. Results indicate that the Al2O3 nanopowders added with Ag+, Ag2O, and Ag, apart from phase composition, were not differing considerably from one another in terms of their morphology and physical properties. However, nanopowders of Al2O3-Ag were more agglomerated than Al2O3-Ag2O and Al2O3-Ag+ nanopowders. The antibacterial activity of the nanopowders was examined by the spread plate method using bacterial strains such as Escherichia coli, Sarcina lutea, and Bacillus subtilis. The best antibacterial properties against Sarcina lutea strain were achieved in the amorphous-Al2O3-Ag+ and Al2O3-Ag2O nanopowders, whereas the worst antimicrobial activity against Bacillus subtilis and Escherichia coli was shown by the Al2O3-Ag+ and Al2O3-Ag nanopowders. The observed increase of the antibacterial activity as the silver content was not however significant for Al2O3-Ag nanopowders. The results obtained in the present experiments show that the Al2O3-Ag+, Al2O3-Ag2O, and Al2O3-Ag nanopowders, possessing good bactericidal properties, can be produced by using consecutive stages of dry sol-gel method, and Al2O3 nanopowder added with Ag2O is considered as the best raw material in the production of antiseptic materials. 1. Introduction At present, there is great demand from the industry for materials that show biocidal properties. That is why, since several years, many research centers all over the world have focused their interest on different forms of silver, mainly metallic silver nanoparticles. Because of their small size, the silver nanoparticles show high-chemical activity dependent on both their sizes and shapes [1]. They have also good antirheumatic [2] and antiinflammatory [3] properties. Results also indicate that the bactericidal effect of the Ag nanoparticles was a synergic action of Reactive Oxygen Species (ROS) and Ag+, not an additive one [4]. However, unbound silver particles can easily be removed from the carrier material during exploitation. An additional problem is the natural liability of silver
%U http://www.hindawi.com/journals/jns/2013/263583/