Biomimetic control of crystal assembly by growth in an organic hydrogel network

Calcite aggregates are mineralized in an organic poly-acrylamide hydrogel using a counter diffusion arrangement. The particles obtained show a characteristic pseudo-octahedral morphology, which is unexpected for calcite crystals. Scanning and transmission electron microscopy reveal a microstructure...

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Published in	The American mineralogist Vol. 88; no. 4; pp. 647 - 652
Main Authors	Grassmann, Olaf, Neder, Reinhard B, Putnis, Andrew, Löbmann, Peer
Format	Journal Article
Language	English
Published	Washington Mineralogical Society of America 01.04.2003 Walter de Gruyter GmbH
Subjects	Aggregates Biomimetics Calcite Calcium carbonates colloidal materials crystal growth crystal structure Crystals gels hydrogels Mineralogy nonsilicates X-ray diffraction X-ray diffraction data
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Abstract	Calcite aggregates are mineralized in an organic poly-acrylamide hydrogel using a counter diffusion arrangement. The particles obtained show a characteristic pseudo-octahedral morphology, which is unexpected for calcite crystals. Scanning and transmission electron microscopy reveal a microstructure composed of individual highly aligned calcite crystallites. Although the aggregates consist of independent crystallites, the X-ray diffraction patterns suggest calcite single crystals. By analogy with some biominerals, the inorganic assembly is intergrown with an organic hydrogel network. A specific model is proposed for growth of the aggregate.
AbstractList	Calcite aggregates are mineralized in an organic poly-acrylamide hydrogel using a counter diffusion arrangement. The particles obtained show a characteristic pseudo-octahedral morphology, which is unexpected for calcite crystals. Scanning and transmission electron microscopy reveal a microstructure composed of individual highly aligned calcite crystallites. Although the aggregates consist of independent crystallites, the X-ray diffraction patterns suggest calcite single crystals. By analogy with some biominerals, the inorganic assembly is intergrown with an organic hydrogel network. A specific model is proposed for growth of the aggregate. Calcite aggregates are mineralized in an organic poly-acrylamide hydrogel using a counter diffusion arrangement. The particles obtained show a characteristic pseudo-octahedral morphology, which is unexpected for calcite crystals. Scanning and transmission electron microscopy reveal a microstructure composed of individual highly aligned calcite crystallites. Although the aggregates consist of independent crystallites, the X-ray diffraction patterns suggest calcite single crystals. By analogy with some biominerals, the inorganic assembly is intergrown with an organic hydrogel network. A specific model is proposed for growth of the aggregate.[PUBLICATION ABSTRACT]
Author	Grassmann, Olaf Löbmann, Peer Neder, Reinhard B Putnis, Andrew
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Title	Biomimetic control of crystal assembly by growth in an organic hydrogel network
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