Self‐Organization of Oriented Calcium Carbonate/Polymer Composites: Effects of a Matrix Peptide Isolated from the Exoskeleton of a Crayfish

Sugawara, Ayae; Nishimura, Tatsuya; Yamamoto, Yuya; Inoue, Hirokazu; Nagasawa, Hiromichi; Kato, Takashi

doi:10.1002/anie.200503800

Cited by 149 publications

(133 citation statements)

References 48 publications

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“…A large number of examples of ordered macromolecular structures are also known in the world of biomacromolecules. Mesocrystal formation along a pre-structured organic matrix seems to be especially valid in biomineralization processes, as could also be demonstrated by biomimetic mineralization experiments [21][22][23][24][25] . Typical examples for a matrix-mediated nanoparticle growth are the formation and growth of bones as well as the growth of nacre [25][26][27] .…”

Section: Wang Et Al Prepared a Variety Of Eufmentioning

confidence: 81%

Fabrication of EuF₃‐Mesocrystals in a Gel Matrix

Lausser¹,

Kumke²,

Antonietti³

et al. 2010

Zeitschrift anorg allge chemie

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Europium(III)fluoride-mesocrystals were synthesised in an organic matrix. This matrix is a gel formed by Eu 3+ -ions and a polycarboxylate/sulfonate copolymer, ACUSOL 588G. In the gel phase, the local amount of Europium-ions is very high since Eu 3+ acts as a crosslinker, and crystallization occurs upon addition of F -. Nucleated seed crystals in the gel phase grow by further ion attachment and form mesocrystals by mutual orientation of the EuF 3 -particles in the gel. We propose a dipole field as reason for this alignment and that the dipolar character of the particles originates from adsorption of the polyelectrolyte on charged crystal faces.

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Section: Wang Et Al Prepared a Variety Of Eufmentioning

confidence: 81%

Fabrication of EuF₃‐Mesocrystals in a Gel Matrix

Lausser¹,

Kumke²,

Antonietti³

et al. 2010

Zeitschrift anorg allge chemie

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“…[28][29][30] The crayfish exoskeleton is a Bio-inspired polymer-inorganic composites A Sugawara-Narutaki fascinating biomineral because of its remarkable mechanical properties. It consists mainly of chitin/protein microfibrils and CaCO 3 (calcite and ACC).…”

Section: Oriented Caco 3 Thin Filmsmentioning

confidence: 99%

“…33 Calcite thin films form in the presence of CAP-1 (3.0 Â 10 À3 wt%) on a chitin matrix. 28 The thin film is composed of nanocrystals with their c-axes oriented unidirectionally (Figures 5b-d). Real-time observation of CaCO 3 crystallization by polarizing optical microscopy drove us to speculate that the oriented film forms via amorphous-tocrystalline transformation.…”

Section: Oriented Caco 3 Thin Filmsmentioning

confidence: 99%

“…Real-time observation of CaCO 3 crystallization by polarizing optical microscopy drove us to speculate that the oriented film forms via amorphous-tocrystalline transformation. Comparable experiments using recombinant peptides and synthetic peptide fragments of CAP-1 reveal the role of each CAP-1 domain: 28,29 (1) rCAP-1, where the 70th pS is replaced with Ser, also gives oriented CaCO 3 thin films in which primary particle size (that of the nanocrystals comprising the thin film) increases. pS has a stronger inhibitory effect on CaCO 3 crystallization than does Ser and thus might stabilize ACC.…”

Section: Oriented Caco 3 Thin Filmsmentioning

confidence: 99%

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Bio-inspired synthesis of polymer–inorganic nanocomposite materials in mild aqueous systems

Sugawara‐Narutaki

2012

Polym J

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It is increasingly important that we learn how to fabricate materials in environmentally friendly ways using common resources that are abundant in nature. Biomineralization, the process by which living organisms create a variety of sophisticated composites, such as bone and shell, is an ideal model for such fabrication. This article reviews recent progress toward the synthesis of polymer-inorganic composite materials inspired by biomineralization. In particular, three reaction systems are focused upon: (1) polymer-calcium carbonate thin film composites synthesized by interaction among insoluble polymer, soluble acidic polymer, and inorganic ions, (2) polymer nanogel-calcium phosphate composite nanoparticles synthesized on scaffolds of hydrogel nanoparticles and (3) colloidal silica nanoparticles made to self-assemble into anisotropic chain-like structures by interaction with block copolymers. All these reaction systems involve aqueous environments at ambient temperature and pressure.

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“…Kato and co-workers have reported that the cooperative effects of organic macromolecules facilitate the formation of organic/inorganic composites. [21][22][23][24][25][26][27][28] The goal of the present study is the development of rational molecular-control approaches for the direction of crystal growth, as observed in biomineralization.…”

Section: Introductionmentioning

confidence: 99%

Self-organization of hollow-cone carbonate crystals through molecular control with an acid organic polymer

Oaki

Adachi

Imai

2012

Polym J

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Hollow-cone morphologies have been formed on carbonate crystals of calcite, aragonite and vaterite through molecular control with an organic acid polymer. The macroscopic conical shapes featured hollow interiors and consisted of oriented nanocrystals mixed with this organic polymer, or mesocrystals. At submicrometer scales, the mesocrystal structures are mediated by the interaction of the organic polymers. The macroscopic hollow-cone shapes were formed through the directed growth of the mesocrystals under diffusion-controlled conditions. Because biological macromolecules control the growth of biominerals, a molecular-control approach was used in this study to induce the self-organization of hierarchical architectures.

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Self‐Organization of Oriented Calcium Carbonate/Polymer Composites: Effects of a Matrix Peptide Isolated from the Exoskeleton of a Crayfish

Cited by 149 publications

References 48 publications

Fabrication of EuF₃‐Mesocrystals in a Gel Matrix

Fabrication of EuF₃‐Mesocrystals in a Gel Matrix

Bio-inspired synthesis of polymer–inorganic nanocomposite materials in mild aqueous systems

Self-organization of hollow-cone carbonate crystals through molecular control with an acid organic polymer

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Self‐Organization of Oriented Calcium Carbonate/Polymer Composites: Effects of a Matrix Peptide Isolated from the Exoskeleton of a Crayfish

Cited by 149 publications

References 48 publications

Fabrication of EuF3‐Mesocrystals in a Gel Matrix

Fabrication of EuF3‐Mesocrystals in a Gel Matrix

Bio-inspired synthesis of polymer–inorganic nanocomposite materials in mild aqueous systems

Self-organization of hollow-cone carbonate crystals through molecular control with an acid organic polymer

Contact Info

Product

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Fabrication of EuF₃‐Mesocrystals in a Gel Matrix

Fabrication of EuF₃‐Mesocrystals in a Gel Matrix