Ice shaping properties, similar to that of antifreeze proteins, of a zirconium acetate complex

The control of the growth morphologies of ice crystals is a critical issue in fields as diverse as biomineralization, medicine, biology, civil or food engineering. Such control can be achieved through the ice-shaping properties of specific compounds. The development of synthetic ice-shaping compound...

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Veröffentlicht in:	PloS one 2011-10, Vol.6 (10), p.e26474-e26474
Hauptverfasser:	Deville, Sylvain, Viazzi, Céline, Leloup, Jérôme, Lasalle, Audrey, Guizard, Christian, Maire, Eric, Adrien, Jérôme, Gremillard, Laurent
Format:	Artikel
Sprache:	eng
Schlagworte:	Acetates Acetates - chemistry Acetic acid Adsorption Alcohol Antifreeze proteins Antifreeze Proteins - chemistry Biological products Biology Biomimetic Materials - chemistry Biomimetics Biopolymers Cellular structure Chemical Sciences Chemistry Coordination Complexes - chemistry Crystallization Crystals Earth Sciences Food technology Glycoproteins Ice Ice crystals Material chemistry Materials Science Mineralization Morphology Organic chemistry Physical chemistry Physics Plant growth Properties (attributes) Proteins Pseudomonas putida Science Suspensions Zirconium Zirconium - chemistry Zirconium compounds
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creator	Deville, Sylvain Viazzi, Céline Leloup, Jérôme Lasalle, Audrey Guizard, Christian Maire, Eric Adrien, Jérôme Gremillard, Laurent
description	The control of the growth morphologies of ice crystals is a critical issue in fields as diverse as biomineralization, medicine, biology, civil or food engineering. Such control can be achieved through the ice-shaping properties of specific compounds. The development of synthetic ice-shaping compounds is inspired by the natural occurrence of such properties exhibited by antifreeze proteins. We reveal how a particular zirconium acetate complex is exhibiting ice-shaping properties very similar to that of antifreeze proteins, albeit being a radically different compound. We use these properties as a bioinspired approach to template unique faceted pores in cellular materials. These results suggest that ice-structuring properties are not exclusive to long organic molecules and should broaden the field of investigations and applications of such substances.
doi_str_mv	10.1371/journal.pone.0026474
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subjects	Acetates Acetates - chemistry Acetic acid Adsorption Alcohol Antifreeze proteins Antifreeze Proteins - chemistry Biological products Biology Biomimetic Materials - chemistry Biomimetics Biopolymers Cellular structure Chemical Sciences Chemistry Coordination Complexes - chemistry Crystallization Crystals Earth Sciences Food technology Glycoproteins Ice Ice crystals Material chemistry Materials Science Mineralization Morphology Organic chemistry Physical chemistry Physics Plant growth Properties (attributes) Proteins Pseudomonas putida Science Suspensions Zirconium Zirconium - chemistry Zirconium compounds
title	Ice shaping properties, similar to that of antifreeze proteins, of a zirconium acetate complex
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