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- Publisher
- Springer Journals
- Copyright
- Copyright © 2007 by Nature Publishing Group
- Subject
- Materials Science; Materials Science, general; Optical and Electronic Materials; Biomaterials; Nanotechnology; Condensed Matter Physics
- ISSN
- 1476-1122
- eISSN
- 1476-4660
- DOI
- 10.1038/nmat1912
- Publisher site
- See Article on Publisher Site
Abstract
Diatoms, shells, bones and teeth are exquisite examples of well-defined structures, arranged from nanometre to macroscopic length scale, produced by natural biomineralization using organic templates to control the growth of the inorganic phase 1,2,3,4,5,6 . Although strategies mimicking Nature have partially succeeded in synthesizing human-designed bio-inorganic composite materials 7,8,9,10 , our limited understanding of fundamental mechanisms has so far kept the level of hierarchical complexity found in biological organisms out of the chemists’ reach 11 . In this letter, we report on the synthesis of unprecedented double-walled silica nanotubes with monodisperse diameters that self-organize into highly ordered centimetre-sized fibres. A unique synergistic growth mechanism is elucidated by the combination of light and electron microscopy, synchrotron X-ray diffuse scattering and Raman spectroscopy. Following this growth mechanism, macroscopic bundles of nanotubules result from the kinetic cross-coupling of two molecular processes: a dynamical supramolecular self-assembly and a stabilizing silica mineralization. The feedback actions between the template growth and the inorganic deposition are driven by a mutual electrostatic neutralization. This ‘dynamical template’ concept can be further generalized as a rational preparation scheme for materials with well-defined multiscale architectures and also as a fundamental mechanism for growth processes in biological systems.
Journal
Nature Materials – Springer Journals
Published: May 21, 2007