Диссертация (1105732), страница 30
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Characterization andperformance of the bifunctional platinum-loaded calcium-hydroxyapatite in the one-step synthesisof methyl isobutyl ketone //Journal of Molecular Catalysis A: Chemical. – 2013. – Vol. 377. – P.42-50.136.Matsuura Y., Onda A., Ogo S., Yanagisawa K. Acrylic acid synthesis from lactic acid overhydroxyapatite catalysts with various cations and anions //Catalysis Today. – 2014. – Vol.
226. –P. 192-197.137.Matsuura Y., Onda A., Yanagisawa K. Selective conversion of lactic acid into acrylic acid overhydroxyapatite catalysts //Catalysis Communications. – 2014. – Vol. 48. – P. 5-10.158138.Maaten B., Moussa J., Desmarets C., Gredin P., Beaunier P., Kanger T., Tonsuaadu K., VilleminD., Gruselle M. Cu-modified hydroxy-apatite as catalyst for Glaser–Hay C C homo-couplingreaction of terminal alkynes //Journal of Molecular Catalysis A: Chemical.
– 2014. – Vol. 393. –P. 112-116.139.Gopal B., Vydehi P. Investigation of catalytic activity of copper modified Sr5(PO4)3OH in electrontransfer reaction //Applied Catalysis A: General. – 2013. – Vol. 462. – P. 262-270.140.Chakraborty R., RoyChowdhury D. Fish bone derived natural hydroxyapatite-supported copperacid catalyst: Taguchi optimization of semibatch oleic acid esterification //Chemical EngineeringJournal.
– 2013. – Vol. 215. – P. 491-499.141.Zhang F., Shi Y., Zhao Z., Song W., Cheng Y. The photo-catalytic activities of MP (M= Ba, Ca,Cu, Sr, Ag; P= PO43−, HPO42−) microparticles //Applied Surface Science. – 2014. – Vol. 292. – P.570-575.142.Kangwansupamonkon W., Lauruengtana V., Surassmo S., Ruktanonchai U.
Antibacterial effect ofapatite-coated titanium dioxide for textiles applications //Nanomedicine: Nanotechnology,Biology and Medicine. – 2009. – Vol. 5. – №. 2. – P. 240-249.143.Jacobson A. J. Materials for solid oxide fuel cells† //Chemistry of Materials. – 2009. – Vol. 22. –№. 3. – P.
660-674.144.Orera A., Slater P.R. New Chemical Systems for Solid Oxide Fuel Cells† //Chemistry ofMaterials. – 2009. – Vol. 22. – №. 3. – P. 675-690.145.Ali R., Yashima M., Matsushita Y., Yoshioka H., Ohoyama K., Izumi F. Diffusion path of oxideions in an apatite-type ionic conductor La9.69(Si5.70Mg0.30)O26.24 //Chemistry of Materials. – 2008.– Vol.
20. – №. 16. – P. 5203-5208.146.Kreuer K.D. Proton conductivity: materials and applications //Chemistry of Materials. – 1996. –Vol. 8. – №. 3. – P. 610-641.147.Reisfeld R., Gaft M., Boulon G., Panczer C., Jørgensen, C.K. Laser-induced luminescence of rareearth elements in natural fluor-apatites //Journal of luminescence.
– 1996. – Vol. 69. – №. 5. – P.343-353.148.El Ouenzerfi R., Kbir-Ariguib N., Trabelsi-Ayedi M., Piriou B. Spectroscopic study of Eu3+ instrontium hydroxyapatite Sr10(PO4)6(OH)2 //Journal of luminescence. – 1999. – Vol. 85. – №. 1. –P. 71-77.149.Bharat L.K., Park J.Y., Yu J.S. Hydrothermal synthesis, structures and luminescent properties ofnanocrystaline Ca8Gd2(PO4)6O2: Eu2+, Eu3+ phosphors //Chemical engineering journal. – 2014.
–Vol. 240. – P. 179-186.159150.Peng C., Li G., Kang X., Li C., Lin J. The fabrication of one-dimensional Ca4Y6(SiO4)6O: Ln3+(Ln= Eu, Tb) phosphors by electrospinning method and their luminescence properties //Journal ofcolloid and interface science. – 2011. – Vol. 355. – №. 1. – P. 89-95.151.Mori K., Kanai S., Hara T., Mizugaki T., Ebitani K., Jitsukawa K., Kaneda K.
Development ofruthenium-hydroxyapatite-encapsulated superparamagnetic γ-Fe2O3 nanocrystallites as an efficientoxidation catalyst by molecular oxygen //Chemistry of materials. – 2007. – Vol. 19. – №. 6. – P.1249-1256.152.Low H.R., Phonthammachai N., Maignan A., Stewart G.A., Bastow T.J., Ma L.L., White T.J. Thecrystal chemistry of ferric oxyhydroxyapatite //Inorganic chemistry. – 2008. – Vol. 47. – №. 24. –P. 11774-11782.153.Pan H., Darvell B.W.
Effect of carbonate on hydroxyapatite solubility //Crystal growth & design.– 2010. – Vol. 10. – №. 2. – P. 845-850.154.Sakhno Y., Bertinetti L., Iafisco M., Tampieri A., Roveri N., Martra G. Surface hydration andcationic sites of nanohydroxyapatites with amorphous or crystalline surfaces: a comparative study//The Journal of Physical Chemistry C. – 2010. – Vol. 114. – №.
39. – P. 16640-16648.155.Dasgupta S., Banerjee S.S., Bandyopadhyay A., Bose S. Zn-and Mg-doped hydroxyapatitenanoparticles for controlled release of protein //Langmuir. – 2010. – Vol. 26. – №. 7. – P. 49584964.156.Layrolle P., Lebugle A. Synthesis in pure ethanol and characterization of nanosized calciumphosphate fluoroapatite //Chemistry of materials. – 1996.
– Vol. 8. – №. 1. – P. 134-144.157.Llusar M., Sanchez C. Inorganic and hybrid nanofibrous materials templated with organogelators//Chemistry of Materials. – 2008. – Vol. 20. – №. 3. – P. 782-820.158.Al-Kattan A., Dufour P., Dexpert-Ghys J., Drouet C. Prepara.tion and physicochemicalcharacteristics of luminescent apatite-based colloids //The Journal of Physical Chemistry C. –2010. – Vol. 114. – №. 7. – P. 2918-2924.159.Steiner Z., Rapaport H., Oren Y., Kasher R.
Effect of surface-exposed chemical groups oncalcium-phosphate mineralization in water-treatment systems //Environmental science &technology. – 2010. – Vol. 44. – №. 20. – P. 7937-7943.160.Nzihou A., Adhikari B., Pfeffer R. Effect of metal chlorides on the sintering and densification ofhydroxyapatite adsorbent //Industrial & engineering chemistry research. – 2005. – Vol. 44. – №. 6.– P.
1787-1794.161.Nzihou A., Adhikari B. Effect of oxides and nitrates of lead on the sintering and densification ofhydroxyapatite adsorbents //Industrial & engineering chemistry research. – 2004. – Vol. 43. – №.13. – P. 3325-3335.160162.Loher S., Stark W.J., Maciejewski M., Baiker A., Pratsinis S.E., Reichardt D., Maspero F.,Krumeich F., Günther D. Fluoro-apatite and calcium phosphate nanoparticles by flame synthesis//Chemistry of materials. – 2005. – Vol. 17. – №.
1. – P. 36-42.163.Третьяков Ю.Д., Путляев В.И. Введение в химию твердофазных материалов / Москва:Издательство Наука, 2006. — 342 с.164.Вест А. Химия твердого тела // Москва: Мир, 1988. – 1 т. – 555 с.165.Wang F., Cao B., Mao C. Bacteriophage bundles with prealigned Ca2+ initiate the orientednucleation and growth of hydroxylapatite //Chemistry of Materials. – 2010. – Vol. 22. – №. 12. –P. 3630-3636.166.Mieszawska A.J., Nadkarni L.D., Perry C.C., Kaplan D.L.
Nanoscale Control of Silica ParticleFormation via Silk− Silica Fusion Proteins for Bone Regeneration //Chemistry of Materials. –2010. – Vol. 22. – №. 20. – P. 5780-5785.167.Takadama H., Kim H.M., Kokubo T., Nakamura T. Mechanism of biomineralization of apatite ona sodium silicate glass: TEM-EDX study in vitro //Chemistry of materials. – 2001. – Vol.
13. – №.3. – P. 1108-1113.168.Pérez-Pariente J., Balas F., Vallet-Regí M. Surface and Chemical Study of SiO2-P2O5-CaO-(MgO)Bioactive Glasses //Chemistry of materials. – 2000. – Vol. 12. – №. 3. – P. 750-755.169.Brixner L.H., Weiher J.F. Magnetic study of a chlorapatite of manganese, Ba5 (MnO4) 3Cl//Inorganic Chemistry. – 1968. – Vol. 7. – №. 7. – P. 1474-1475.170.Казин П.Е., Зыкин М.А., Третьяков Ю.Д., Янзен М. Синез и свойства окрашенныхмедьсодержащих апатитов состава Са5(РО4)3СuуОу+δ(ОН)0.5-y-0.5x0.5 (x = OH, F, Cl) //Журналнеорганической химии. – 2008. – T. 53. – №. 3.
- C. 409-414.171.Petříček V., Dušek M., Palatinus L. Crystallographic computing system JANA2006: generalfeatures //Zeitschrift für Kristallographie-Crystalline Materials. – 2014. – V. 229. – №. 5. – Р.345-352.172.Dollase W. A. Correction of intensities for preferred orientation in powder diffractometry:application of the March model //Journal of Applied Crystallography. – 1986. – V.
19. – №. 4. –P. 267-272.173.Pitschke W., Hermann H., Mattern N. The influence of surface roughness on diffracted X-rayintensities in Bragg–Brentano geometry and its effect on the structure determination by means ofRietveld analysis //Powder Diffraction. – 1993. – V. 8. – №. 02. – P. 74-83.174.Albert Thompson, Ingolf Lindau, David Attwood, Yanwei Liu et.al. X-Ray Data Booklet. ThirdEdition // California: University of California, Berkley, 2009. – 176 p.175.Apyari V.V., Dmitrienko S.G., Zolotov Y.A. Unusual application of common digital devices:Potentialities of Eye-One Pro mini-spectrophotometer–A monitor calibrator for registration of161surface plasmon resonance bands of silver and gold nanoparticles in solid matrices //Sensors andActuators B: Chemical. – 2013. – Vol.
188. – P. 1109-1115.176.Fowler B. O. Infrared studies of apatites. II. Preparation of normal and isotopically substitutedcalcium, strontium, and barium hydroxyapatites and spectra-structure-composition correlations//Inorganic Chemistry. – 1974. – Vol. 13. – №. 1. – P. 207-214.177.Silva C.C., Sombra A.S.B., Rosa I.L.V., Leite E.R., Longo E., Varela J.A. Study of Structural andPhotoluminescent Properties of Ca8Eu2(PO4)6O2 //Journal of fluorescence.
– 2008. – Vol. 18. – №.2. – P. 253-259.178.Volʹnov I. I. Peroxides, superoxides, and ozonides of alkali and alkaline earth metals. – NewYork; Plenum Press, 1966, 154 p.179.Wright W. D. A re-determination of the trichromatic coefficients of the spectral colours//Transactions of the Optical Society. – 1929. – V. 30. – №. 4. – P. 141.180.Guild J. The colorimetric properties of the spectrum //Philosophical Transactions of the RoyalSociety of London. Series A, Containing Papers of a Mathematical or Physical Character. – 1932.– P. 149-187.181.Центральная ямка (fovea) / – Национальная энциклопедическая служба, 2004. – Режимдоступа:http://vocabulary.ru/dictionary/493/word/centralnaja-jamka-fovea(ШифферР.Психология ощущений, глоссарий к книге)182.Hunter R.
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