Crystallization Behavior of the Low-Temperature Mineralization Sintering Process for Glass Nanoparticles

Abstract: Bioactive glasses are promising materials for various applications, such as bone grafts and implants. The development of sintering techniques for bioactive glasses is one of the most important ways to expand the application to biomaterials. In this paper, we demonstrate the low-temperature mineralization sintering process (LMSP) of glass nanoparticles and their crystallization behavior. LMSP is a novel process employed to densify glass nanoparticles at an extremely low temperature of 120 °C. For this new appro… Show more

“…The 10Â SBF we used in this study, which is a supersaturated solution and may be benecial to the stability of ACP. 23,24 As shown in Fig. 1C and D, spherical nanoparticles of about 50-100 nm precipitated on the surface of SF and grew along silk nanobers.…”

Mineralization of calcium phosphate induced by a silk fibroin film under different biological conditions

“…The 10Â SBF we used in this study, which is a supersaturated solution and may be benecial to the stability of ACP. 23,24 As shown in Fig. 1C and D, spherical nanoparticles of about 50-100 nm precipitated on the surface of SF and grew along silk nanobers.…”

Mineralization of calcium phosphate induced by a silk fibroin film under different biological conditions

Densification of transparent hydroxyapatite ceramics via cold sintering process combined with biomineralization