Zhu H, Zheng K, Guo D, Zang H, Yu S, Xu K (2020)
Publication Type: Journal article
Publication year: 2020
Book Volume: 528
Article Number: 146583
DOI: 10.1016/j.apsusc.2020.146583
Controllable degradation behavior of hydroxyapatite (HA) plays a crucial role in successful long-term implantation of a bone tissue substitute. In this study, electron beam irradiation (EBI) was carried out as an efficient strategy to modify HA structure. The degradation characteristics, bioactivity and cell response of the irradiated HA were comprehensively evaluated. The results showed that EBI with absorbed dose of 3.42, 10.27 and 20.54 Gy did not introduce newly-formed phase or impurity, but created crystal defects and nanovoids, which were formed from oxygen deficiencies, into HA lattice with irradiation dose-dependence. The dissolution rate of the irradiated HA enhanced continuously with increasing irradiation dose, as a result of constantly increasing crystal defects and enlarging voids, where the main reactive sites for the degradation of HA formed. The Ca2+ and PO
APA:
Zhu, H., Zheng, K., Guo, D., Zang, H., Yu, S., & Xu, K. (2020). Engineering microstructure of hydroxyapatite by electron beam irradiation to induce controllable in vitro degradation. Applied Surface Science, 528. https://doi.org/10.1016/j.apsusc.2020.146583
MLA:
Zhu, Hui, et al. "Engineering microstructure of hydroxyapatite by electron beam irradiation to induce controllable in vitro degradation." Applied Surface Science 528 (2020).
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