Bui Thi Hoa, Nguyen Tuyet Minh, Le Hong Phuc, Nguyen Quan Hien, Nguyen Anh Tien, Bui Xuan Vuong
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引用次数: 0
摘要
本研究以油酸为结构控制剂,通过水热法合成了生物活性玻璃 55SiO2- 41CaO- 4P2O5 (mol%)。采用 TGA-DCS、XRD、FTIR、SEM、TEM 和 BET 等物理化学方法对不同油酸浓度 0 M、0.25 M、0.5 M 和 1 M 下合成的玻璃样品(分别称为 55 S-0 M、55 S-0.25 M、55 S-0.5 M 和 55 S-1 M)进行了表征。研究结果表明,在约 700 摄氏度的温度下加热干燥凝胶,可合成无定形和介孔结构的玻璃材料。体外实验后形成的尖锐羟基磷灰石峰表明,55 S-0.25 M 和 55 S-0.5 M 样品具有更高的生物活性,因为它们具有更高的孔隙率和比表面积。此外,用油酸合成的所有玻璃样品都与成纤维细胞(L-929)具有良好的生物相容性。
Synthesis of three-component bioactive glass SiO2– CaO– P2O5 by hydrothermal method using oleic acid as a surfactant
This work presents the synthesis of bioactive glass 55SiO2– 41CaO– 4P2O5 (mol%) by the hydrothermal method using oleic acid as a structural-control agent. Glass samples synthesized at different oleic acid concentrations 0 M, 0.25 M, 0.5 M, and 1 M (denoted as 55 S-0 M, 55 S-0.25 M, 55 S-0.5 M, 55 S-1 M) were characterized by physic-chemical methods such as TGA-DCS, XRD, FTIR, SEM, TEM, and BET. According to the findings, glass materials in the form of amorphous and mesoporous structures can be synthesized by heating dried gel at about 700 oC. The formation of sharp hydroxyapatite peaks after in vitro experiment shows higher bioactivity in samples 55 S-0.25 M, and 55 S-0.5 M, which have higher porosity, and specific surface area. Furthermore, all glass samples synthesized in oleic acid demonstrate excellent biocompatibility with fibroblast cells (L-929).
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