Abstract
In this study, we prepared hydroxyapatite (HAP) samples using hydrothermal method. We investigated the effect of reaction conditions such as phosphate excess applying 1.49 and 1.67 (as stoichiometric) Ca/P ratio, pH (9/ 10/ 11/ 12) and time (4/ 8/ 12/ 24 h). Sample characterization was carried out by XRD and SEM. The results showed, all samples had HAP structure, however, lower Ca/P ratio, larger reaction time and setting the pH to 10 increased the crystallinity. Then, we synthetized Sr-doped HAP samples, varying the Sr concentration using 2, 4, 6, 8 and 10 % Sr/ (Ca+Sr). The Sr content was revealed by EDX. Sr-incorporation did not change the obtained crystalline HAP phase but the unit cell parameters increased. We calculated lattice constants and found that a, b changed from 9.4310 Å to 9.4700 Å, c from 6.8819 Å to 6.9227 Å and the unit cell volume from 530.0951 Å3 to 537.6556 Å3 due to the larger ionic radius of Sr compared to Ca. The pure and doped samples had uniform, mostly needle-like morphology with 100-300 nm length and 25-100 nm. In vitro cytotoxicity tests revealed evident antibacterial activity in the case of doped samples compared to pure HAP against E. coli.
Highlights
Hydroxyapatite (HAP, Ca10(PO4)6OH2) has become one of the most investigated biomaterials over the past few decades due to its excellent biocompatibility and bonding ability to natural tissues
We investigated the effect of Ca/P ratio fixing it at two various values (1.49, 1.67), studied the role of reaction time (4/ 8/ 12/ 24 h) and solution pH (9/ 10/ 11/ 12) on the crystalline structure and morphology of the as-prepared samples
Based on the X-ray powder diffraction (XRD) patterns both HAP1 (Ca/P = 1.67) and HAP2 (Ca/P = 1.49) samples were identified as pure HAP (ICDD 04-016-2958)
Summary
Hydroxyapatite (HAP, Ca10(PO4)6OH2) has become one of the most investigated biomaterials over the past few decades due to its excellent biocompatibility and bonding ability to natural tissues. The results showed, all samples had HAP structure, lower Ca/P ratio, larger reaction time and setting the pH to 10 increased the crystallinity.
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