Microtubule-Templated Biomimetic Mineralization of Lepidocrocite

Protein microtubules (MTs) 25 nm in diameter and tens of micrometers long have been used as templates for the biomimetic mineralization of FeOOH. Exposure of MTs to anaerobic aqueous solutions of Fe2+ buffered to neutral pH followed by aerial oxidation leads to the formation of iron oxide coated MTs...

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Bibliographic Details
Published in:Advanced functional materials 2004-01, Vol.14 (1), p.19-24
Main Authors: Boal, A. K., Headley, T. J., Tissot, R. G., Bunker, B. C.
Format: Article
Language:English
Subjects:
Biomimetic mineralization
FeOOH
FeOOH, nanowires
inorganic
Microtubules
nanowires
Nanowires, inorganic
Proteins
Template-directed synthesis
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Summary:Protein microtubules (MTs) 25 nm in diameter and tens of micrometers long have been used as templates for the biomimetic mineralization of FeOOH. Exposure of MTs to anaerobic aqueous solutions of Fe2+ buffered to neutral pH followed by aerial oxidation leads to the formation of iron oxide coated MTs. The iron oxide layer was found to grow via a two‐step process: initially formed 10–30 nm thick coatings were found to be amorphous in structure and comprised of several iron‐containing species. Further growth resulted in MTs coated with highly crystalline layers of lepidocrocite with a controllable thickness of up to 125 nm. On the micrometer size scale, these coated MTs were observed to form large, irregular bundles containing hundreds of individually coated MTs. Iron oxide grew selectively on the MT surface, a result of the highly charged MT surface that provided an interface favorable for iron oxide nucleation. This result illustrates that MTs can be used as scaffolds for the in‐situ production of high‐aspect‐ratio inorganic nanowires. Protein microtubules (MTs) 25 nm in diameter and tens of micrometers long (see cover) have been used as templates for the biomimetic mineralization of FeOOH. Exposure of MTs to anaerobic aqueous solutions of Fe2+ followed by aerial oxidation (see Figure) lead to the formation of iron oxide coatings with controllable thickness of up to 125 nm on the MT template.
ISSN:1616-301X
1616-3028
DOI:10.1002/adfm.200304435