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Design of biocompatible magnetic pectin aerogel monoliths and microspheres
Publikationstyp
Journal Article
Date Issued
2012-10-28
Sprache
English
Institut
Journal
Volume
2
Issue
26
Start Page
9816
End Page
9823
Citation
RSC Advances 2 (26): 9816-9823 (2012-10-28)
Publisher DOI
Scopus ID
Novel material formulations for biomedical uses containing magnetic nanoparticles are currently being explored. The synergistic combination of a polymeric matrix and a filler with magnetic properties in hybrid nanoporous materials (aerogels) will confer versatility to the product. In this work, the use of pectin aerogels as a biodegradable matrix containing maghemite nanoparticles (γ-Fe 2O 3 NPs) is studied. The γ-Fe 2O 3 NPs-loaded pectin aerogels are developed in two different morphologies (cylindrical monoliths and microspheres) prepared by a combination of sol-gel and supercritical drying methods. In the case of the aerogel microspheres, the sol-gel method was substituted by the emulsion-gelation procedure. The obtained aerogel-based materials were evaluated regarding their physical appearance and stability and their textural and magnetic properties. The particle size distribution and morphology of the aerogel microspheres were additionally analyzed by laser dispersion spectrometry, static image analysis and scanning electron microscopy. Process parameters influenced the distribution of the γ-Fe 2O 3 NPs within the material. Whereas the γ-Fe 2O 3 NPs were homogeneously distributed throughout the aerogel monoliths, γ-Fe 2O 3 NPs were mostly deposited on the outer surface of the aerogel microspheres. The magnetic properties of maghemite were preserved in the end material after overall processing.