Scanning Electron Microscopic Analysis of the Mineralization of Type I Collagen via a Polymer-Induced Liquid-Precursor (PILP) Process

Olszta, Matthew J.; Douglas, Elliot P.; Gower, Laurie B.

doi:10.1007/s00223-002-1032-7

Cited by 146 publications

(172 citation statements)

References 41 publications

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“…32 It was reported that colloidal ACC nanoparticles were generated in the solution by using the ammonium carbonate diffusion method in the presence of highly concentrated acidic polymers and calcium ion. 33 The ACC nanoparticle is an effective vehicle for transportation of CaCO 3 to construct three-dimensional interpenetrated hybrids. 33 In recent years, it is widely recognized that the aggregation-mediated pathway of mineralization is important to understand biomineralization.…”

Section: Formation Of Caco 3 /Chitin-whisker Hybrids Y Yamamoto Et Almentioning

confidence: 99%

“…33 The ACC nanoparticle is an effective vehicle for transportation of CaCO 3 to construct three-dimensional interpenetrated hybrids. 33 In recent years, it is widely recognized that the aggregation-mediated pathway of mineralization is important to understand biomineralization. 34,35 It has been proposed that living organisms also use ACC nanoparticles for storage, transportation and mineralization of CaCO 3 in their systems.…”

Section: Formation Of Caco 3 /Chitin-whisker Hybrids Y Yamamoto Et Almentioning

confidence: 99%

“…36,37 In our present system, the colloidal ACC nanoparticles may be formed in the crystallization solution as previously reported. 33 The ACC nanoparticles might diffuse into the gel matrix because of the capillary force, eventually transforming into calcite in the gel matrix to form three-dimensional interpenetrated hybrid materials. In contrast, for the alternate soaking method, it was insufficient to transport CaCO 3 because only cation or anion was supplied to the gel matrix.…”

Section: Formation Of Caco 3 /Chitin-whisker Hybrids Y Yamamoto Et Almentioning

confidence: 99%

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CaCO3/chitin-whisker hybrids: formation of CaCO3 crystals in chitin-based liquid-crystalline suspension

Yamamoto

Nishimura

Saito

et al. 2010

Polym J

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CaCO 3 /chitin-whisker hybrids were prepared using the liquid-crystalline suspension of the chitin whisker. Suspensions of chitin nanowhiskers were obtained by acid hydrolysis of chitin powder. The suspension containing about 5 wt% of whiskers exhibited lyotropic liquid-crystalline behavior. The suspension was converted to a gel form when it was exposed to ammonium carbonate vapor. CaCO 3 crystals were formed for 30 days in chitin gels as templates. The nucleation of CaCO 3 occurred in the liquidcrystalline chitin matrix and the CaCO 3 crystals deposited in the chitin gels to form hybrids with an interpenetrated threedimensional structure. Scanning electron microscopy image of the fractured sample of the hybrid showed that the gel matrix was filled with CaCO 3 crystals. Thermogravimetric analysis revealed that the composition of CaCO 3 /polymer/H 2 O is about 2:6:2 in weight. This approach inspired by biomineralization may be useful for the development of inorganic/organic hybrid materials. Polymer Journal (2010) 42, 583-586; doi:10.1038/pj.2010.32; published online 5 May 2010Keywords: biomineralization; CaCO 3 ; chitin; hybrid; liquid crystal INTRODUCTIONThe process used by living organisms to produce inorganic/organic hybrids is called biomineralization. 1-3 Natural biominerals such as bone, teeth and the nacre of the shell have high mechanical strength and optical properties. In these biominerals, the properties are closely related to their hierarchically ordered structures. For instance, the nacre of the shell has a layered structure composed of about 95 wt% CaCO 3 and about 5 wt % organic matrices. 4-6 The layered structure induces high mechanical strength and pearl luster. Another type of biomineral that is softer than the nacre of the shell is the exoskeleton of the crayfish. 7 It is composed of about 50 wt% CaCO 3 and about 50 wt% organic macromolecules such as chitin and proteins. In the exoskeleton, chitin fibers have a helical structure 8,9 that is analogous to the cholesteric liquid-crystalline order. These chitin fibers are complexed with proteins and CaCO 3 . These natural biominerals offer ideas for new inorganic/organic hybrid materials. [10][11][12][13][14][15][16] A variety of calcium-based hybrid materials have been reported. [17][18][19][20][21][22][23][24][25][26] We previously reported that CaCO 3 thin-film crystals were formed on chitin matrices in the presence of acidic polymers. [17][18][19][20][21] Moreover, oriented CaCO 3 crystals were obtained in an oriented chitin matrix. 27 This result shows that the ordered matrix is important for further structure control of inorganic/organic hybrid materials. Our intention here is to use ordered chitin whiskers for the formation of hybrids. Herein, we report on the formation of CaCO 3 crystals/ chitin-whisker hybrids using the liquid-crystalline suspension of the chitin whisker.

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Section: Formation Of Caco 3 /Chitin-whisker Hybrids Y Yamamoto Et Almentioning

confidence: 99%

Section: Formation Of Caco 3 /Chitin-whisker Hybrids Y Yamamoto Et Almentioning

confidence: 99%

Section: Formation Of Caco 3 /Chitin-whisker Hybrids Y Yamamoto Et Almentioning

confidence: 99%

See 1 more Smart Citation

CaCO3/chitin-whisker hybrids: formation of CaCO3 crystals in chitin-based liquid-crystalline suspension

Yamamoto

Nishimura

Saito

et al. 2010

Polym J

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“…A special feature of the PILP phases is that they allow easy morphosynthesis of novel, biorelevant mineral structures through the shaping of a liquid on the micrometer scale so that crystallization occurs without requiring mass transport over longer distances. [14,15] Herein we extend this approach to polar organic molecules by studying the formation of PILP phases consisting of charged amino acids and oppositely charged polyelectrolytes in ethanol/water mixtures. While addition of ethanol to an aqueous solution of the pure amino acid leads to well shaped single crystals, stable PILP microdroplets are formed spontaneously by adding an oppositely charged polyelectrolyte to the starting solution.…”

mentioning

confidence: 99%

Crystalline, Porous Microspheres Made from Amino Acids by Using Polymer‐Induced Liquid Precursor Phases

2005

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“…For instance, mineralization of collagen in the presence of poly(acrylic acid) (PAA), a synthetic anionic polymer, leads to a hierarchical composite structure similar to natural bone tissue [37]. The polymer-induced liquid precursor (PILP) phase stabilized by PAA exhibits liquid-like properties and is suggested to be drawn into the gaps within collagen fibrils by capillary effects.…”

Section: Introductionmentioning

confidence: 99%

On Mineral Retrosynthesis of a Complex Biogenic Scaffold

2017

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Synergistic relations between organic molecules and mineral precursors regulate biogenic mineralization. Given the remarkable material properties of the egg shell as a biogenic ceramic, it serves as an important model to elucidate biomineral growth. With established roles of complex anionic biopolymers and a heterogeneous organic scaffold in egg shell mineralization, the present study explores the regulation over mineralization attained by applying synthetic polymeric counterparts (polyethylene glycol, poly(acrylic acid), poly(aspartic acid) and poly(4-styrenesulfonic acid-co-maleic acid)) as additives during remineralization of decalcified eggshell membranes. By applying Mg 2+ ions as a co-additive species, mineral retrosynthesis is achieved in a manner that modulates the polymorph and structure of mineral products. Notable features of the mineralization process include distinct local wettability of the biogenic organic scaffold by mineral precursors and mineralization-induced membrane actuation. Overall, the form, structure and polymorph of the mineralization products are synergistically affected by the additive and the content of Mg 2+ ions. We also revisit the physicochemical nature of the biomineral scaffold and demonstrate the distinct spatial distribution of anionic biomolecules associated with the scaffold-mineral interface, as well as highlight the hydrogel-like properties of mammillae-associated macromolecules.

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Scanning Electron Microscopic Analysis of the Mineralization of Type I Collagen via a Polymer-Induced Liquid-Precursor (PILP) Process

Cited by 146 publications

References 41 publications

CaCO3/chitin-whisker hybrids: formation of CaCO3 crystals in chitin-based liquid-crystalline suspension

CaCO3/chitin-whisker hybrids: formation of CaCO3 crystals in chitin-based liquid-crystalline suspension

Crystalline, Porous Microspheres Made from Amino Acids by Using Polymer‐Induced Liquid Precursor Phases

On Mineral Retrosynthesis of a Complex Biogenic Scaffold

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