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Biomineralization II : Mineralization Using Synthetic Polymers and Templates
In nature, biological organisms produce mineralized tissues such as bone, teeth, diatoms, and shells. Biomineralization is the sophisticated process of production of these inorganic minerals by living organisms. Construction of organic inorganichybrid materials withcontrolledmineralization analogous...
Enregistré dans:
| Autres auteurs : | |
|---|---|
| Format : | Livre |
| Langue : | anglais |
| Titre complet : | Biomineralization II : Mineralization Using Synthetic Polymers and Templates / edited by Kensuke Naka. |
| Publié : |
Berlin, Heidelberg :
Springer Berlin Heidelberg
, [20..] Cham : Springer Nature |
| Collection : | Topics in current chemistry ; 271 |
| Titre de l'ensemble : | Topics in Current Chemistry vol. 271 |
| Accès en ligne : |
Accès Nantes Université
Accès direct soit depuis les campus via le réseau ou le wifi eduroam soit à distance avec un compte @etu.univ-nantes.fr ou @univ-nantes.fr |
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| Condition d'utilisation et de reproduction : | Conditions particulières de réutilisation pour les bénéficiaires des licences nationales : https://www.licencesnationales.fr/springer-nature-ebooks-contrat-licence-ln-2017 |
| Contenu : | Bio-inspired Mineralization Using Hydrophilic Polymers. Bio-inspired Crystal Growth by Synthetic Templates. Delayed Action of Synthetic Polymers for Controlled Mineralization of Calcium Carbonate. Inorganic Organic Calcium Carbonate Composite of Synthetic Polymer Ligands with an Intramolecular NH···O Hydrogen Bond |
| Sujets : | |
| Documents associés : | Mineralization using synthetic polymers and templates:
Biomineralization |
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| 225 | 1 | |a Topics in Current Chemistry |x 0340-1022 |v 271 | |
| 327 | 1 | |a Bio-inspired Mineralization Using Hydrophilic Polymers |a Bio-inspired Crystal Growth by Synthetic Templates |a Delayed Action of Synthetic Polymers for Controlled Mineralization of Calcium Carbonate |a Inorganic Organic Calcium Carbonate Composite of Synthetic Polymer Ligands with an Intramolecular NH···O Hydrogen Bond | |
| 330 | |a In nature, biological organisms produce mineralized tissues such as bone, teeth, diatoms, and shells. Biomineralization is the sophisticated process of production of these inorganic minerals by living organisms. Construction of organic inorganichybrid materials withcontrolledmineralization analogous to those produced by nature has recently received much attention because it can aid in understanding the mechanisms of the biomineralization process and development of biomimetic materials processing. The biomineralization ? processes use aqueous solutions at temperatures below 100 C and no toxic intermediates are produced in these systems. From a serious global en- ronmental problem point of view, the development of processes inspired by biomineralizationwouldoffervaluableinsightsintomaterialscienceanden- neering toreduce energy consumption and environmental impact. One ofthe most challenging scienti?c problems is to gain greater insight into the mol- ular interactions occurring at the interface between the inorganic mineral and the macromolecular organicmatrix. Modelsystems are often regarded as a straight-forward experimental approach toward biomimetic crystallization. Hierarchicalarchitecturesconsistingofsmallbuildingblocksofinorganiccr- talsareoftenfoundinbiominerals. Studiesofnanocrystalself-organizationin solutionsystems would also be helpful for understanding biomineralization. Inthesevolumes,wefocusonconstructionoforganic inorganichybrid- terialswithcontrolledmineralizationinspiredbynaturalbiomineralization. In the?rstvolume,thereaderwill?ndcontributionsprovidingabasicscopeofthe mineralization process in aqueous solution. The ?rst chapter by Marc Fricke andDirkVolkmerintroduceMolluskshellformation,crystallizationofCaCO 3 underneath monolayer via epitaxial and non-epitaxial growth. Hiroaki Imai describes hierarchically structured crystals formed through self-organization in solution systems. A wide variety of complex morphologies including fr- tals, dendrites, and self-similar structures are reviewed. Fluoratite-gelatine nanocomposites, reviewed by Rüdiger Kniep and Paul Simon, are suited to obtaining deeper insight into processes of self-organization, and can help to learn about essentials in the formation of inorganic organic nanocomposites ofbiologicalrelevance | ||
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