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快速水热合成及碳酸盐和硅酸盐取代的磷酸钙的特性研究。

Rapid hydrothermal flow synthesis and characterisation of carbonate- and silicate-substituted calcium phosphates.

机构信息

Clean Materials Technology Group, Department of Chemistry, University College London, Christopher Ingold Laboratories, London, UK.

出版信息

J Biomater Appl. 2013 Sep;28(3):448-61. doi: 10.1177/0885328212460289. Epub 2012 Sep 14.

DOI:10.1177/0885328212460289
PMID:22983020
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4112750/
Abstract

A range of crystalline and nano-sized carbonate- and silicate-substituted hydroxyapatite has been successfully produced by using continuous hydrothermal flow synthesis technology. Ion-substituted calcium phosphates are better candidates for bone replacement applications (due to improved bioactivity) as compared to phase-pure hydroxyapatite. Urea was used as a carbonate source for synthesising phase pure carbonated hydroxyapatite (CO₃-HA) with ≈5 wt% substituted carbonate content (sample 7.5CO₃-HA) and it was found that a further increase in urea concentration in solution resulted in biphasic mixtures of carbonate-substituted hydroxyapatite and calcium carbonate. Transmission electron microscopy images revealed that the particle size of hydroxyapatite decreased with increasing urea concentration. Energy-dispersive X-ray spectroscopy result revealed a calcium deficient apatite with Ca:P molar ratio of 1.45 (±0.04) in sample 7.5CO₃-HA. For silicate-substituted hydroxyapatite (SiO₄-HA) silicon acetate was used as a silicate ion source. It was observed that a substitution threshold of ∼1.1 wt% exists for synthesis of SiO₄-HA in the continuous hydrothermal flow synthesis system, which could be due to the decreasing yields with progressive increase in silicon acetate concentration. All the as-precipitated powders (without any additional heat treatments) were analysed using techniques including Transmission electron microscopy, X-ray powder diffraction, Differential scanning calorimetry, Thermogravimetric analysis, Raman spectroscopy and Fourier transform infrared spectroscopy.

摘要

一系列晶态和纳米级的碳酸盐和硅酸盐取代羟基磷灰石已成功地通过连续水热流合成技术生产。与纯相羟基磷灰石相比,离子取代的磷酸钙更适合骨替代应用(由于生物活性提高)。尿素被用作合成纯相碳酸羟基磷灰石(CO₃-HA)的碳酸盐源,其取代碳酸盐含量约为 5wt%(样品 7.5CO₃-HA),并且发现溶液中尿素浓度的进一步增加导致了碳酸取代羟基磷灰石和碳酸钙的双相混合物。透射电子显微镜图像显示,羟基磷灰石的粒径随尿素浓度的增加而减小。能谱分析结果表明,样品 7.5CO₃-HA 中存在钙缺乏磷灰石,其 Ca:P 摩尔比为 1.45(±0.04)。对于硅取代羟基磷灰石(SiO₄-HA),乙酸硅被用作硅离子源。观察到在连续水热流合成系统中,SiO₄-HA 的合成存在约 1.1wt%的取代阈值,这可能是由于随着乙酸硅浓度的逐步增加,产率降低所致。所有未经任何额外热处理的沉淀粉末均采用透射电子显微镜、X 射线粉末衍射、差示扫描量热法、热重分析、拉曼光谱和傅里叶变换红外光谱等技术进行分析。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47e8/4112750/3458c9c2aa1e/10.1177_0885328212460289-fig12.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47e8/4112750/b4bf73dc963e/10.1177_0885328212460289-fig1.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47e8/4112750/212e6fe13ab1/10.1177_0885328212460289-fig4.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47e8/4112750/9945436f091a/10.1177_0885328212460289-fig5.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47e8/4112750/f426bafe11b8/10.1177_0885328212460289-fig6.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47e8/4112750/5f182a07c923/10.1177_0885328212460289-fig7.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47e8/4112750/fe3297a7115b/10.1177_0885328212460289-fig8.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47e8/4112750/388c631510fd/10.1177_0885328212460289-fig9.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47e8/4112750/debbcc57f816/10.1177_0885328212460289-fig10.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47e8/4112750/5f1f43a67613/10.1177_0885328212460289-fig11.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47e8/4112750/3458c9c2aa1e/10.1177_0885328212460289-fig12.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47e8/4112750/b4bf73dc963e/10.1177_0885328212460289-fig1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47e8/4112750/771210d26931/10.1177_0885328212460289-fig2.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47e8/4112750/cbe1e66c7d97/10.1177_0885328212460289-fig3.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47e8/4112750/212e6fe13ab1/10.1177_0885328212460289-fig4.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47e8/4112750/9945436f091a/10.1177_0885328212460289-fig5.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47e8/4112750/f426bafe11b8/10.1177_0885328212460289-fig6.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47e8/4112750/5f182a07c923/10.1177_0885328212460289-fig7.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47e8/4112750/fe3297a7115b/10.1177_0885328212460289-fig8.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47e8/4112750/388c631510fd/10.1177_0885328212460289-fig9.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47e8/4112750/debbcc57f816/10.1177_0885328212460289-fig10.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47e8/4112750/5f1f43a67613/10.1177_0885328212460289-fig11.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/47e8/4112750/3458c9c2aa1e/10.1177_0885328212460289-fig12.jpg

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