2013
DOI: 10.1016/j.pcrysgrow.2012.11.001
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Progress on the preparation of nanocrystalline apatites and surface characterization: Overview of fundamental and applied aspects

Abstract: International audienceNanocrystalline calcium phosphate apatites constitute the main inorganic part of hard tissues, and a growing focus is devoted to prepare synthetic analogs, so-called "biomimetic", able to precisely mimic the morphological and physico-chemical features of biological apatite compounds. Both from fundamental and applied viewpoints, an accurate characterization of nanocrystalline apatites, including their peculiar surface features, and a deep knowledge of crystallization aspects are prerequis… Show more

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Cited by 241 publications
(288 citation statements)
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References 318 publications
(450 reference statements)
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“…It is observable that all samples are classified as B-type (where CO 3 2-substitutes phosphate position) (Ahmed et al 2014). It should be mentioned that carbonate substitution has a critical role in the crystal structure, stability and biological activity (Morales et al 2013;Minh et al 2013).…”
Section: Ftir Analysismentioning
confidence: 99%
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“…It is observable that all samples are classified as B-type (where CO 3 2-substitutes phosphate position) (Ahmed et al 2014). It should be mentioned that carbonate substitution has a critical role in the crystal structure, stability and biological activity (Morales et al 2013;Minh et al 2013).…”
Section: Ftir Analysismentioning
confidence: 99%
“…Figure 6a illustrates the morphology of the nanobrushite sample at pH 5 which appears as homogenous surface with irregular particles, a small amount of apparent porosity. This irregularity appears on the surface as roughness, which could improve the osseointegration as well as the biocompatibility leading to the positive effect on inflammatory reactions (Morales et al 2013;Müller 2010). For the sample prepared at pH 6; Fig.…”
Section: Microstructural and Morphological Featuresmentioning
confidence: 99%
“…A major finding was that the material properties such as surface roughness, specific surface area, tortuosity and secondary conformation of fibroin changed significantly with respect to the 3D matrix architecture as well as the nature of fibroin (native versus regenerated) and were critical factors in determining selective nucleation and growth of HA on fibroin (Figure 1). While the contribution of these intrinsic material properties towards modulating cellular behaviour have been highlighted [3,36], yet their direct implication on the mineralisation potential have not been addressed.…”
Section: Discussionmentioning
confidence: 99%
“…In addition, HA exhibits intimate chemical bonding between the organic-inorganic elements with an overall poor crystallinity [2]. Growing interest in the development of biomimetic synthetic HA-based composites is primarily due to; (i) developing synthetic "analogs" of HA to be able to precisely replicate the morphology and chemistry of bone tissue [3], (ii) HA coating on constructs for improving osteoconductivity and (iii) evaluating the bioactivity of novel materials by studying the nucleation and growth of "bone-like" apatite upon immersion in supersaturated fluids such as simulated body fluid (SBF) [4]. However, there are still gaps in understanding the nature of such depositions; surface features and crystallisation phase especially with respect to the morphology and chemistry of the base material.…”
Section: Introductionmentioning
confidence: 99%
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