Synthesis and characterization of cadmium-calcium hydroxyapatite solid solutions

Synthesis and characterization of cadmium-calcium hydroxyapatite solid solutions

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摘要 A series of cadmium-calcium hydroxyapatite solid solutions was prepared by an aqueous precipitation method. By various means, the characterizations confirmed the formation of continuous solid solutions over all ranges of Cd/（Cd＋Ca） atomic ratio. In the results, both lattice parameters a and c display slight deviations from Vegard’s rule when the Cd/（Cd＋Ca） atomic ratio is greater than 0.6. The particles change from smaller acicular to larger hexagonal columnar crystals as the Cd/（Cd＋Ca） atomic ratio increases from 0-0.60 to 0.60-1.00. The area of the phosphate peak for symmetric P-O stretching decreases with the increase in Cd/（Cd＋Ca） atomic ratio, and the peak disappears when the Cd/（Cd＋Ca） atomic ratio is greater than 0.6; the two phosphate peaks of P-O stretching gradually merge together for the Cd/（Cd＋Ca） atomic ratio near 0.60. These variations can be explained by a slight tendency of larger Cd ions to occupy M（2） sites and smaller Ca ions to prefer M（1） sites in the structure. A series of cadmium-calcium hydroxyapatite solid solutions was prepared by an aqueous precipitation method. By various means, the characterizations confirmed the formation of continuous solid solutions over all ranges of Cd/（Cd＋Ca） atomic ratio. In the results, both lattice parameters a and c display slight deviations from Vegard’s rule when the Cd/（Cd＋Ca） atomic ratio is greater than 0.6. The particles change from smaller acicular to larger hexagonal columnar crystals as the Cd/（Cd＋Ca） atomic ratio increases from 0-0.60 to 0.60-1.00. The area of the phosphate peak for symmetric P-O stretching decreases with the increase in Cd/（Cd＋Ca） atomic ratio, and the peak disappears when the Cd/（Cd＋Ca） atomic ratio is greater than 0.6; the two phosphate peaks of P-O stretching gradually merge together for the Cd/（Cd＋Ca） atomic ratio near 0.60. These variations can be explained by a slight tendency of larger Cd ions to occupy M（2） sites and smaller Ca ions to prefer M（1） sites in the structure.

作者 Xin Zhao Yi-nian Zhu Liu-qin Dai

机构地区 College of Light Industry and Food Engineering College of Environmental Science and Engineering

出处《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 2014年第6期604-608,共5页 矿物冶金与材料学报（英文版）

基金 financially supported by the National Natural Science Foundation of China(No.41263009) the Guangxi Science and Technology Development Project(No.GuiKeZhong 1298002-3) the National Natural Science Foundation of Guangxi of China(No.2012GXNSFDA053022)

关键词 HYDROXYAPATITE solid solutions CADMIUM CALCIUM SUBSTITUTION hydroxyapatite solid solutions cadmium calcium substitution

分类号 TQ132.32 [化学工程—无机化工]

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International Journal of Minerals,Metallurgy and Materials

2014年第6期

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Synthesis and characterization of cadmium-calcium hydroxyapatite solid solutions

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