Structural and Chemical Investigations On SiO₂-Cao-P₂O₅ Bioactive Glass Composition

[1] J.E.Shelby – Introduction to glass science and technology, The Royal Society of Chemistry Ed., 2005 Search in Google Scholar

[2] L. L. Hench, J. Wilson - Bioceramics, Materials Research Society Bulletin p. 62-74, 1991 Search in Google Scholar

[3] D.N. Ungureanu, N. Angelescu, D. Avram - Synthesis, characterization and in vitro bioactivity of SiO₂ – CaO – P₂O₅ sol – gel glasses highlighted by XRD technique, The Scientific Bulletin of Valahia University Materials and Mechanics, 6, 9, p.115 – 119, 2011 Search in Google Scholar

[4] L.L. Hench – Ceramics, Glasses, and Glass–Ceramics în Biomaterials Science, An Introduction to Materials in Medicine; B.D. Ratner, A.S.Hoffman, F.J.Schoen, J.E.Lemons, Ed. Academic Press: San Diego, p. 73–84, 2004 Search in Google Scholar

[5] H. Oonishi, S. Kushitani, E. Yasukawa, H. Iwaki, L.L. Hench, J. Wilson, E. Tsuji, T. Sugihara - Particulate bio glass and hydroxyapatite as a bone graft substitute. Journal of Clinical Orthopaedics and Related Research, 334, p. 316 -325,1997 Search in Google Scholar

[6] N. Yamaguchi, T. Kanda, H. Fujimori, K. Ioku, S. Goto - Gyrolite fine particles synthesized from glass in the system of CaO-SiO2 by hydrothermal reaction, Journal of Materials Science Letters, 20, 6, p. 4889 – 490, 2001 Search in Google Scholar

[7] J. J. Shy, J.M. Wu - Growth kinetics of spherulitic apatite in some MgO-CaO-SiO₂-P₂O₅ glasses, Journal of Materials Science, 29, 1994 Search in Google Scholar

[8] S. Yoshihara, T. Kokubo, N. Nishimura, T. Yamamuro, T. Nakamura - Effects of glass composition on compressive strength of bioactive cement based on CaO-SiO₂-P₂O₅ glass powders, Journal of Materials Science: Materials in Medicine, 5, 3, p. 123 – 129, 1994 Search in Google Scholar

[9] D. N. Ungureanu, N. Angelescu, A. Catangiu, E. V. Stoian, C. Z. Rizescu, D. Avram - Synthesis and Characterization of Bioactive Sol – Gel Glass: A Preliminary Study, Advanced Materials Research Vols. 341-342, p. 21-25, Trans Tech Publications, Switzerland, doi:10.4028/www.scientific.net/AMR.341-342.21, 2012. Search in Google Scholar

[10] D. N. Ungureanu, N. Angelescu, A. Catangiu, V. Bratu, V. Despa, F. V. Anghelina, V. Tsakiris, V. Marinescu - In vitro structural changes on the surface of SiO2 – CaO – P2O5 bioactive glasses, JOURNAL OF OPTOELECTRONICS AND ADVANCED MATERIALS. Vol. 15, No. 7-8, p. 744 – 749, July - August 2013. Search in Google Scholar

[11] A. Saboori, M. Rabiee, F. Moztarzadeh, M. Sheikhi, M. Tahriri, M. Karimi - Synthesis, characterization and in vitro bioactivity of sol-gel-derived SiO2–CaO– P2O5–MgO bioglass, Materials Science and Engineering C, 29, p. 335– 340, 2009. Search in Google Scholar

[12] M. Mami, A. Lucas-Girot, H. Oudadesse, R. Dorbez-Sridi, F. Mezahi, E. Dietrich - Investigation of the surface reactivity of a sol–gel derived glass in the ternary system SiO2–CaO–P2O5, Applied Surface Science, 254, p. 7386– 7393, 2008 Search in Google Scholar

[13] M. Mabrouk, H. Oudadesse, A. Mostafa, X. V. Bui, Y. Gal, G. Cathelineau - Low Temperature Synthesis of Bioactive Glass Through Polymer Route, Journal of the Australian Ceramic Society, 46, 2, p. 38-42, 2010. Search in Google Scholar

[14] R. M. Almeida, A. Gama, Y. Vueva - Bioactive sol–gel scaffolds with dual porosity for tissue engineering, Journal of Sol-Gel Science and Technology, 57, 3, p. 336-342, 2009 Search in Google Scholar

[15] X. Chen, B. Lei, Y. Wang, N. Zhao - Morphological control and in vitro bioactivity of nanoscale bioactive glasses, Journal of Non-Crystalline Solids, 355, 13, p. 791 – 796, 2009. Search in Google Scholar