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High quality research in physical chemistry, chemical physics and biophysical chemistry.
Invited Article
Phys. Chem. Chem. Phys., 2006, 8, 3271 - 3287, DOI: 10.1039/b604589h
Oriented attachment and mesocrystals: Non-classical crystallization mechanisms based on nanoparticle assembly
Markus Niederberger and Helmut Cölfen
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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