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J. Termine, A. Posner (1966)
Infra-Red Determination of the Percentage of Crystallinity in Apatitic Calcium PhosphatesNature, 211
S. Hayakawa, K. Ando, K. Tsuru, A. Osaka, E. Fujii, Koji Kawabata, C. Bonhomme, F. Babonneau (2007)
Structural Characterization and Protein Adsorption Property of Hydroxyapatite Particles Modified With Zinc IonsJournal of the American Ceramic Society, 90
S. Pasqualetti, G. Banfi, M. Mariotti (2013)
The effects of strontium on skeletal development in zebrafish embryo.Journal of trace elements in medicine and biology : organ of the Society for Minerals and Trace Elements, 27 4
E. Canalis, M. Hott, P. Deloffre, Y. Tsouderos, P. Marie (1996)
The divalent strontium salt S12911 enhances bone cell replication and bone formation in vitro.Bone, 18 6
Aleksandra Laskus, J. Kolmas (2017)
Ionic Substitutions in Non-Apatitic Calcium PhosphatesInternational Journal of Molecular Sciences, 18
M. Goldberg, V. Smirnov, M. Kasimova, L. Shvorneva, S. Kutsev, O. Antonova, S. Barinov (2015)
Ceramics in the system calcium phosphates-magnesium phosphates with (Ca + Mg)/P ≈ 2Doklady Chemistry, 461
G. Oner, B. Bhaumick, R. Bala (1984)
Effect of zinc deficiency on serum somatomedin levels and skeletal growth in young rats.Endocrinology, 114 5
L. He, X. Zhang, Bo Liu, Ye Tian, Wenhui Ma (2016)
Effect of magnesium ion on human osteoblast activityBrazilian Journal of Medical and Biological Research, 49
I. Fadeeva, N. Bakunova, V. Komlev, Ľ. Medvecký, A. Fomin, A. Gurin, S. Barinov (2012)
Zinc- and silver-substituted hydroxyapatite: Synthesis and propertiesDoklady Chemistry, 442
ISSN 0012-5008, Doklady Chemistry, 2018, Vol. 483, Part 1, pp. 283–286. © Pleiades Publishing, Ltd., 2018. Original Russian Text © N.V. Petrakova, A.A. Ashmarin, O.V. Baranov, A.Yu. Fedotov, S.M. Barinov, V.S. Komlev, 2018, published in Doklady Akademii Nauk, 2018, Vol. 483, No. 3. CHEMICAL TECHNOLOGY High-Temperature Solid-Phase Interaction of Hydroxyapatite with Mg, Sr, and Zn Nitrates a, a a a N. V. Petrakova *, A. A. Ashmarin , O. V. Baranov , A. Yu. Fedotov , a a Corresponding Member of the RAS S. M. Barinov , and Corresponding Member of the RAS V. S. Komlev Received April 18, 2018 Abstract—The high-temperature solid-phase interaction of hydroxyapatite (HA) with magnesium, stron- tium, and zinc nitrates at the stage of annealing of ceramics was investigated. The phase composition and unit cell parameters of the obtained materials were studied for various metals introduced into the structure to dif- ferent concentrations. The introduction of Mg led to partial decomposition of HA to tricalcium phosphate and tetracalcium phosphate, the addition of Sr caused partial formation of tetracalcium phosphate from HA, and the doping with Zn gave rise to single-phase HAs. DOI: 10.1134/S0012500818110095 Modern ceramic materials based on hydroxyapatite The purpose of this work was
Doklady Chemistry – Springer Journals
Published: Dec 13, 2018
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