Fabrication and characterization of biocompatible nacre-like structures from α-zirconium hydrogen phosphate hydrate and chitosan

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Sajjad M. Waraich
  • Britta Hering
  • Zaklina Burghard
  • Joachim Bill
  • Peter Behrens
  • Henning Menzel

Organisationseinheiten

Externe Organisationen

  • Technische Universität Braunschweig
  • Max-Planck-Institut für Intelligente Systeme (Stuttgart)
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Details

OriginalspracheEnglisch
Seiten (von - bis)74-82
Seitenumfang9
FachzeitschriftJournal of Colloid and Interface Science
Jahrgang367
Ausgabenummer1
PublikationsstatusVeröffentlicht - 29 Okt. 2011

Abstract

Composite materials with an ordered layered structure resembling that of nacre were fabricated by layer-by-layer assembly making use of presynthesized α-zirconium hydrogenphosphate hydrate (ZrP) platelets and chitosan. These two biocompatible materials were chosen in view of possible applications in the biomedical field, e.g., as bone or joint replacement implants. The effect of different concentrations of the inorganic ZrP platelets and the organic components (chitosan) on the composite assembly and structure was investigated. A high concentration of chitosan (0.1. wt.%) resulted in a misalignment of the inorganic platelets, while at very low concentrations (0.001. wt.%), the substrate was not fully covered by the polymer, again leading to misalignment. Also, the concentration of the α-ZrP platelets affected the composite assembly and structure. The number of dipping cycles was varied between 70 and 220, yielding a maximum thickness of approximately 6 μm. The pH value of the chitosan solution was also varied to investigate its influence on the composite assembly. The mechanical properties of the composites were tested with a nanoindenter. For samples prepared with the same number of dipping cycles, higher values of Young's modulus and hardness were obtained with improved alignment of the platelets in the samples. For samples prepared with 220 dipping cycles, a Young's modulus of 2.6. GPa and a hardness of 70. MPa were observed. Important general relationships are recognized between the preparation parameters, the degree of order within the nacre-like films and the resulting mechanical properties.

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Fabrication and characterization of biocompatible nacre-like structures from α-zirconium hydrogen phosphate hydrate and chitosan. / Waraich, Sajjad M.; Hering, Britta; Burghard, Zaklina et al.
in: Journal of Colloid and Interface Science, Jahrgang 367, Nr. 1, 29.10.2011, S. 74-82.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Waraich SM, Hering B, Burghard Z, Bill J, Behrens P, Menzel H. Fabrication and characterization of biocompatible nacre-like structures from α-zirconium hydrogen phosphate hydrate and chitosan. Journal of Colloid and Interface Science. 2011 Okt 29;367(1):74-82. doi: 10.1016/j.jcis.2011.10.042
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title = "Fabrication and characterization of biocompatible nacre-like structures from α-zirconium hydrogen phosphate hydrate and chitosan",
abstract = "Composite materials with an ordered layered structure resembling that of nacre were fabricated by layer-by-layer assembly making use of presynthesized α-zirconium hydrogenphosphate hydrate (ZrP) platelets and chitosan. These two biocompatible materials were chosen in view of possible applications in the biomedical field, e.g., as bone or joint replacement implants. The effect of different concentrations of the inorganic ZrP platelets and the organic components (chitosan) on the composite assembly and structure was investigated. A high concentration of chitosan (0.1. wt.%) resulted in a misalignment of the inorganic platelets, while at very low concentrations (0.001. wt.%), the substrate was not fully covered by the polymer, again leading to misalignment. Also, the concentration of the α-ZrP platelets affected the composite assembly and structure. The number of dipping cycles was varied between 70 and 220, yielding a maximum thickness of approximately 6 μm. The pH value of the chitosan solution was also varied to investigate its influence on the composite assembly. The mechanical properties of the composites were tested with a nanoindenter. For samples prepared with the same number of dipping cycles, higher values of Young's modulus and hardness were obtained with improved alignment of the platelets in the samples. For samples prepared with 220 dipping cycles, a Young's modulus of 2.6. GPa and a hardness of 70. MPa were observed. Important general relationships are recognized between the preparation parameters, the degree of order within the nacre-like films and the resulting mechanical properties.",
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T1 - Fabrication and characterization of biocompatible nacre-like structures from α-zirconium hydrogen phosphate hydrate and chitosan

AU - Waraich, Sajjad M.

AU - Hering, Britta

AU - Burghard, Zaklina

AU - Bill, Joachim

AU - Behrens, Peter

AU - Menzel, Henning

N1 - Funding information: We are thankful to M. Boettger and Prof. W. Kowalsky (LEO, Braunschweig University of Technology) for the possibility to perform profilometer measurements. Financial support from the DFG within the framework of SFB 599 is gratefully acknowledged. The authors wish to thank all colleagues in work package D9.

PY - 2011/10/29

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N2 - Composite materials with an ordered layered structure resembling that of nacre were fabricated by layer-by-layer assembly making use of presynthesized α-zirconium hydrogenphosphate hydrate (ZrP) platelets and chitosan. These two biocompatible materials were chosen in view of possible applications in the biomedical field, e.g., as bone or joint replacement implants. The effect of different concentrations of the inorganic ZrP platelets and the organic components (chitosan) on the composite assembly and structure was investigated. A high concentration of chitosan (0.1. wt.%) resulted in a misalignment of the inorganic platelets, while at very low concentrations (0.001. wt.%), the substrate was not fully covered by the polymer, again leading to misalignment. Also, the concentration of the α-ZrP platelets affected the composite assembly and structure. The number of dipping cycles was varied between 70 and 220, yielding a maximum thickness of approximately 6 μm. The pH value of the chitosan solution was also varied to investigate its influence on the composite assembly. The mechanical properties of the composites were tested with a nanoindenter. For samples prepared with the same number of dipping cycles, higher values of Young's modulus and hardness were obtained with improved alignment of the platelets in the samples. For samples prepared with 220 dipping cycles, a Young's modulus of 2.6. GPa and a hardness of 70. MPa were observed. Important general relationships are recognized between the preparation parameters, the degree of order within the nacre-like films and the resulting mechanical properties.

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