Phase transformation process and step growth mechanism of hydroxyapatite whiskers under constant impulsion system
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- 作者:Changlian Chena ; Jianqiu Lia ; Zhiliang Huanga ; hzl6455@126.com"" rel=""nofollow ; cnsdqdccl@hotmail.com"" rel=""nofollow ; Xiaokun Chenga ; Jun Yua ; Han Wanga ; Ru-an Chib ; Yuehua Huc
- 关键词:A1. Constant impulsion system ; A1. Phase transformation ; A2. Step growth ; B1. Hydroxyapatite ; B1. Whiskers
- 刊名:Journal of Crystal Growth
- 出版年:2011
- 出版时间:15 July 2011
- 年:2011
- 卷:327
- 期:1
- 页码:154-160
- 全文大小:1244 K
文摘
Hydroxyapatite (HAP) whiskers were synthesized using urea as the precipitator by a phase transformation method, and their phase transformation process and growth mechanism were investigated. The results showed that with the decomposition of urea and the corresponding increase of pH value of the reaction system, dicalcium phosphate anhydrous (DCPA) and octacalcium phosphate (OCP) were precipitated at pH of 3.3–4.3; then Ca2+ and ions began to be released from DCPA at pH values greater than 4.5. Finally HAP whiskers heterogeneously nucleated and grew up into short column crystals along the surface of the OCP flakes. In the absence of the ionic resources, DCPA gradually dissolved and the OCP flakes transformed into HAP continuously and the short columnar HAP whiskers grew up. The aspect ratio of the HAP whiskers with length of 20–100 μm and diameter of 1–2 μm was about 25. The HRTEM and AFM images showed that HAP whiskers grew along the c-axis direction, the (1 0 0) steps were clearly observed at their heads and the straight step lines instead of helical Frank ones were present on the side face of the (1 0 0) steps. The calculation on the basis of the surface energy of the HAP crystal showed that the growth rate of the (0 0 1) plane was the fastest, the growth rate at the homogeneous twist sites was the second and that at heterogeneous twist sites could be the slowest, which were the main factors finally leading to the preferential growth of HAP whiskers along the c-axis direction as well as the formation of the growth steps.