Publikation: Colloidal Stabilization of Calcium Carbonate Prenucleation Clusters with Silica
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2012
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Melero-García, Emilio
Drechsler, Markus
Talmon, Yeshayahu
Kienle, Lorenz
García-Ruiz, Juan Manuel
Kunz, Werner
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Advanced Functional Materials. 2012, 22(20), pp. 4301-4311. ISSN 1616-301X. eISSN 1616-3028. Available under: doi: 10.1002/adfm.201200953
Zusammenfassung
Calcium carbonate precipitation proceeds via a complex multistage scenario involving neutral ion clusters as precursors and amorphous phases as intermediates, which finally transform to crystals. Although the existence of stable clusters in solution prior to nucleation has been demonstrated, the molecular mechanisms by which they precipitate are still obscure. Here, direct insight into the processes that drive the transformation of individual clusters into amorphous nanoparticles is provided by progressive colloidal stabilization of different transient states in silica-containing environments. Nucleation of calcium carbonate in the presence of silica can only take place via cluster aggregation at low pH values. At higher pH, prenucleation clusters become colloidally stabilized and cannot aggregate. Nucleation through structural reorganization within the clusters is not observed under these conditions, indicating that this pathway is blocked by kinetic and/or thermodynamic means. The degree of stabilization against nucleation is found to be sufficient to allow for a dramatic enrichment of solutions with prenucleation clusters and enable their isolation into the dry state. This approach renders direct analyses of the clusters by conventional techniques possible and is thus likely to facilitate deeper insight into the chemistry and structure of these elusive species in the future.
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KELLERMEIER, Matthias, Denis GEBAUER, Emilio MELERO-GARCÍA, Markus DRECHSLER, Yeshayahu TALMON, Lorenz KIENLE, Helmut CÖLFEN, Juan Manuel GARCÍA-RUIZ, Werner KUNZ, 2012. Colloidal Stabilization of Calcium Carbonate Prenucleation Clusters with Silica. In: Advanced Functional Materials. 2012, 22(20), pp. 4301-4311. ISSN 1616-301X. eISSN 1616-3028. Available under: doi: 10.1002/adfm.201200953BibTex
@article{Kellermeier2012Collo-20953,
year={2012},
doi={10.1002/adfm.201200953},
title={Colloidal Stabilization of Calcium Carbonate Prenucleation Clusters with Silica},
number={20},
volume={22},
issn={1616-301X},
journal={Advanced Functional Materials},
pages={4301--4311},
author={Kellermeier, Matthias and Gebauer, Denis and Melero-García, Emilio and Drechsler, Markus and Talmon, Yeshayahu and Kienle, Lorenz and Cölfen, Helmut and García-Ruiz, Juan Manuel and Kunz, Werner}
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<dcterms:abstract xml:lang="eng">Calcium carbonate precipitation proceeds via a complex multistage scenario involving neutral ion clusters as precursors and amorphous phases as intermediates, which finally transform to crystals. Although the existence of stable clusters in solution prior to nucleation has been demonstrated, the molecular mechanisms by which they precipitate are still obscure. Here, direct insight into the processes that drive the transformation of individual clusters into amorphous nanoparticles is provided by progressive colloidal stabilization of different transient states in silica-containing environments. Nucleation of calcium carbonate in the presence of silica can only take place via cluster aggregation at low pH values. At higher pH, prenucleation clusters become colloidally stabilized and cannot aggregate. Nucleation through structural reorganization within the clusters is not observed under these conditions, indicating that this pathway is blocked by kinetic and/or thermodynamic means. The degree of stabilization against nucleation is found to be sufficient to allow for a dramatic enrichment of solutions with prenucleation clusters and enable their isolation into the dry state. This approach renders direct analyses of the clusters by conventional techniques possible and is thus likely to facilitate deeper insight into the chemistry and structure of these elusive species in the future.</dcterms:abstract>
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