2013
DOI: 10.1002/cite.201200035
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Laser‐Based Generation of Nanocomposites without Matrix‐Coupling Agents for Bioactive Medical Devices

Abstract: Zur Ausschöpfung des Potenzials funktionaler Nanomaterialen bedarf es neuartiger Produktionsverfahren, die die Dispersion der Nanopartikel entlang der Prozesskette sicherstellen. Am Beispiel von Medizinprodukten mit antibakteriellem Schutz vor Biofilmbildung auf Basis von Silbernanopartikeln werden die Volumenintegration in Kunststoffe und die Nanopartikelsynthese durch Laserabtrag in Flüssigkeiten vorgestellt. Die antibakterielle Wirksamkeit der Nanokomposite und Verarbeitbarkeit zu Prototypen werden gezeigt.… Show more

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Cited by 10 publications
(19 citation statements)
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“…Generally, the embedment of nanoparticles into a polymer matrix can be carried out in situ and ex situ [50][51][52]. Fig.…”
Section: Composite Synthesismentioning
confidence: 99%
See 3 more Smart Citations
“…Generally, the embedment of nanoparticles into a polymer matrix can be carried out in situ and ex situ [50][51][52]. Fig.…”
Section: Composite Synthesismentioning
confidence: 99%
“…However, the biocompatibility of both the matrix and the nanoparticle is crucial [51,72] and the safety of the product has to be ensured. In general, the polymer matrix needs to be nontoxic, and the nanoparticles have to be immobilized within the matrix [56,72].…”
Section: Biomedicinementioning
confidence: 99%
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“…Nanocomposites composed of polymers and noble as well as ignoble metal nanoparticles like zinc and iron are highly interesting for various medical applications [1], [2], predominantly as they may serve as a reservoir for bioactive ions [3], [4], while additionally the embedded nanoparticles may induce changes in the composite's surface charge (hydrophilicity), which may favor cell growth and proliferation [5]. Zinc ions are known to support wound healing by their cell stimulating effect [6], hence zinc release systems have been used for wound-care for a long time [7], e.g.…”
Section: Introductionmentioning
confidence: 99%