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Glass and Ceramics

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09-09-2017 | BIOMATERIALS

Synthesis of Calcium-Phosphate Powder from Calcium Formiate and Ammonium Hydrophosphate for Obtaining Biocompatible Resorbable Biphase Ceramic Materials

Authors: T. V. Safronova, V. I. Putlyaev, Ya. Yu. Filippov, S. A. Vladimirova, D. M. Zuev, G. S. Cherkasova

Published in: Glass and Ceramics | Issue 5-6/2017

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Abstract

Calcium phosphate powder was synthesized from calcium formiate Ca(CHO₂)₂ and ammonium hydrophosphate (NH₄)₂ HPO₄ with Ca/P ratio in the initial water solutions equal to 1. The phase composition of the powders synthesized from 0.5M solutions was represented by brushite CaHPO₄ · 2H₂O and octacalcium phosphate Ca₈(HPO₄)₂ (PO₄)₆ · 6H₂O. After firing at 1100°C the phase composition of the powder was represented by calcium pyrophosphate β-Ca₂P₂O₇ and tricalcium phosphate β-Ca₃ (PO₄)₂. The synthesized powder can be used to obtain biocompatible resorbable biphase ceramic materials and composites with a polymer matrix.

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S. M. Barinov, “Ceramic and composite materials based on calcium phosphates for medicine,” Usp. Fiz. Nauk, 79(1), 15 – 32 (2010).

T. V. Safronova and V. I. Putlyaev, “Medical inorganic materials science in Russia: calcium phosphate material,” Nanosistemy: Fiz., Khim., Matematika, 4(1), 24 – 47 (2013).

A. V. Belyakov, E. V. Zharikov, and A. A. Malygin, Chemical Principles of the Nanotechnology of Solid Phase Material with Different Functional Purpose [in Russian], SPbSTI (TU), St. Petersburg (2006).

T. V. Safronova, “The phase composition of ceramic based on calcium hydroxyapatite containing byproducts of the synthesis reaction,” Steklo Keram., No. 4, 21 – 24 (2006); T. V. Safronova, “The phase composition of ceramic based on calcium hydroxyapatite containing byproducts of the synthesis reaction,” Glass Ceram., 66(3 – 4), 136 – 139 (2006).

T. V. Safronova, M. A. Shekhirev, V. I. Putlyaev, and Yu. D. Tret’yakov, “Ceramic materials based on hydroxyapatite synthesized from solutions of varying concentrations,” Neorg. Mater., 43(8), 1005 – 1014 (2007).CrossRef

T. V. Safronova, V. I. Putlyaev, G. K. Kazakova, and S. A. Korneichuk, “Biphase CaO–P₂O₅ ceramic based on powder synthesized from calcium acetate and ammonium hydrophophate,” Steklo Keram., No. 2, 34 – 41 (2013); T. V. Safronova, V. I. Putlyaev, G. K. Kazakova, and S. A. Korneichuk, “Biphase CaO–P₂O₅ ceramic based on powder synthesized from calcium acetate and ammonium hydrophophate,” Glass Ceram., 70(1 – 2), 65 – 70 (2013).

T. V. Safronova, G. K. Kazakpova, P. V. Evdokimov, et al., “Ceramic based on calcium phosphate powder synthesized from calcium saccharate and ammonium hydrophosphate,” Materialovedenie, No. 3, 46 – 50 (2016).

A. A. Stepuk, A. A. Veresov, V. I. Putlyaev, and Yu. D. Tret’yakov, ”Effect the anions NO₃ ^–, CH₃ COO^– and Cl^– on the morphology of calcium hydroxyapatite crystals,” Dokl. Akad. Nauk, 412(1), 11 – 14 (2007).

T. Safronova, S. A. Kurbatova, T. B. Shatalova, et al., “Calcium pyrophosphate powder synthesized from calcium pyrophosphate and acetate for obtaining bioceramics,” Materialovedenie, No. 8, 45 – 50 (2016).

10.

T. Safronova, V. I. Putlyaev, P. V. Evdokimov, et al., “Black calcium phosphate powders for stereolithography,” in: Proc. 13th Russian-Chinese Symposium on New Materials and Technologies [in Russian], Interkontakt Nauka, Moscow (2015), Vol. 2, pp. 604 – 606.

11.

T. V. Safronova, A. V. Kuznetsov, S. Korneychuk, et al., “Calcium phosphate powders synthesized from solutions with [Ca²⁺]/[PO₄ ^3–] = 1 for bioresorbable ceramics,” Cent. Eur. J. Chem., 7(2), 184 – 191 (2009).

12.

T. Kanazawa, Inorganic Phosphate Materials [Russian translation], Naukova Dumka, Kiev (1998).

13.

V. I. Putlyaev, T. V. Safronova, E. V. Kukueva, and Yu. D. Tret’yakov, A Method for Preparing Batches for Obtaining Biodegradable Ceramic Material, RF Pat. 2456253 [in Russian], publ. July 20, 2012.

14.

V. I. Kuznetsov, R. L. Globus, T. N. Karskaya, et al., Handbook of Chemical Reagents and Preparations [in Russian], Goskhimizdat, Moscow (1953).

15.

V. F. Janas and K. S. TenHuisen, Relic Process for Producing Bioresorbable Ceramic Tissue Scaffolds, US Pat. 6667049, publ. December 23, 2003.

16.

T. Motoshiro and K. Sukezo, Method for Production of Porous Spheres of Calcium, US Pat. 4752457, publ. June 21, 1988.

17.

A. Yasukawa, H. Takase, K. Kandori, and T. Ishikawa, “Preparation of calcium hydroxyapatitie using amides,” Polyhedron, 13(22), 3071 – 3078 (1994).CrossRef

18.

R. M.Wilson, J. C. Elliott, and S. E. P. Dowker, “Formate incorporation in the structure of Ca-deficient apatite: Rietveld structure refinement,” J. Solid State Chem., 174, 132 – 140 (2003).CrossRef

19.

V. I. Putlyaev, E. V. Kukueva, T. Safronova, et al., “Particulars of thermolysis octacalcium phosphate,” Novye Ogneup., No. 10, 52 – 56 (2013).

Title: Synthesis of Calcium-Phosphate Powder from Calcium Formiate and Ammonium Hydrophosphate for Obtaining Biocompatible Resorbable Biphase Ceramic Materials
Authors: T. V. Safronova
V. I. Putlyaev
Ya. Yu. Filippov
S. A. Vladimirova
D. M. Zuev
G. S. Cherkasova
Publication date: 09-09-2017
Publisher: Springer US
Published in: Glass and Ceramics / Issue 5-6/2017
Print ISSN: 0361-7610
Electronic ISSN: 1573-8515
DOI: https://doi.org/10.1007/s10717-017-9958-4

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