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3D Spongin Scaffolds as Templates for Electro-Assisted Deposition of Selected Iron Oxides.

Krzysztof NowackiAnita KubiakMarek NowickiDmitry TsurkanHermann EhrlichTeofil Jesionowski
Published in: Biomimetics (Basel, Switzerland) (2024)
The skeletons of marine sponges are ancient biocomposite structures in which mineral phases are formed on 3D organic matrices. In addition to calcium- and silicate-containing biominerals, iron ions play an active role in skeleton formation in some species of bath sponges in the marine environment, which is a result of the biocorrosion of the metal structures on which these sponges settle. The interaction between iron ions and biopolymer spongin has motivated the development of selected extreme biomimetics approaches with the aim of creating new functional composites to use in environmental remediation and as adsorbents for heavy metals. In this study, for the first time, microporous 3D spongin scaffolds isolated from the cultivated marine bath sponge Hippospongia communis were used for electro-assisted deposition of iron oxides such as goethite [α-FeO(OH)] and lepidocrocite [γ-FeO(OH)]. The obtained iron oxide phases were characterized with the use of scanning electron microscopy, FTIR, and X-ray diffraction. In addition, mechanisms of electro-assisted deposition of iron oxides on the surface of spongin, as a sustainable biomaterial, are proposed and discussed.
Keyphrases
  • electron microscopy
  • iron deficiency
  • high resolution
  • heavy metals
  • high speed
  • tissue engineering
  • magnetic resonance imaging
  • climate change
  • iron oxide
  • magnetic resonance
  • health risk assessment
  • health risk