2005
DOI: 10.1016/j.surfcoat.2004.08.159
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High-fluence implantation of negative metal ions into polymers for surface modification and nanoparticle formation

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Cited by 50 publications
(26 citation statements)
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“…Use of Ag nanoparticles can solve this problem as they have the advantage of a high specific surface area and a high fraction of surface atoms. Silver nanoparticles with the diameter of less than 10 nm created gradient of nanostructures [104,105] and these structures augment the anti-infective qualities of Ag.…”
Section: Silver Ion Implantationmentioning
confidence: 99%
“…Use of Ag nanoparticles can solve this problem as they have the advantage of a high specific surface area and a high fraction of surface atoms. Silver nanoparticles with the diameter of less than 10 nm created gradient of nanostructures [104,105] and these structures augment the anti-infective qualities of Ag.…”
Section: Silver Ion Implantationmentioning
confidence: 99%
“…In four separate studies, Lee and Tsao [10], Lee et al [11], Boldyryeva et al [12], and Casemiro et al [13] added Ag-zinc antimicrobial zeolites in low percentages to PMMA. This material can also be used as a valuable alternative to reduce microbial contamination of tissue conditioners, acrylic resin denture bases, and acrylic base plates of removable orthodontic appliances.…”
Section: Denture Stomatitismentioning
confidence: 99%
“…Both of these have been coated onto or incorporated into various test materials, including the denture material Poly (methyl methacrylate) (PMMA). 113 Nanoparticulate metal oxides have been of particular interest as antimicrobial agents as they can be prepared with extremely high surface areas and unusual crystal morphologies that have a high number of edges, corners and other potentially reactive sites. 114 On the other hand, certain metal oxides are now coming under close scrutiny because of their potential toxic effects to eukaryotic cells.…”
Section: Nanotechnologymentioning
confidence: 99%