Publikation: Oriented attachment and mesocrystals : Non-classical crystallization mechanisms based on nanoparticle assembly
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In this review, we highlight particle based crystallization pathways leading to single crystals via mesoscopic transformation. In contrast to the classical mechanism of atom/molecule mediated growth of a single crystal, the particle mediated growth and assembly mechanisms are summarized as “non-classical crystallization”, including exiting processes like oriented attachment and mesocrystal formation. Detailed investigations of non-classical crystallization mechanisms are a recent development, but evidence for these pathways is rapidly increasing in the literature. A major driving force for these investigations originates from biomineralization, because it seems that these crystallization routes are frequently applied by natural organisms. We give a non-exhaustive literature survey on these two mechanisms with a focus on recent examples and studies, which are dedicated to a mechanistic understanding. Furthermore, conditions are introduced for which these non-classical crystallization mechanisms can be expected, as they are always an alternative reaction pathway to classical crystallization.
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NIEDERBERGER, Markus, Helmut CÖLFEN, 2006. Oriented attachment and mesocrystals : Non-classical crystallization mechanisms based on nanoparticle assembly. In: Physical Chemistry Chemical Physics : PCCP. 2006, 8(28), pp. 3271-3287. ISSN 1463-9076. eISSN 1463-9084. Available under: doi: 10.1039/B604589HBibTex
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year={2006},
doi={10.1039/B604589H},
title={Oriented attachment and mesocrystals : Non-classical crystallization mechanisms based on nanoparticle assembly},
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volume={8},
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journal={Physical Chemistry Chemical Physics : PCCP},
pages={3271--3287},
author={Niederberger, Markus and Cölfen, Helmut}
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