Physico-chemical aspects of using ree-containing nitrate systems in forming multicomponent oxide functional materials

• Autorzy: Dryuchenko Alexander , Storozhenko Dmitriy , Bunyakina Natalia , Ivanytska Irina , Kulchiy Alexander , Golubatnikov Dmitryi

Identyfikatory

DOI

10.53412/jntes-2020-4.4

• Języki publikacji: EN

Abstrakty

EN

For obtaining the nanosized inorganic materials on oxides of transition and rare earth elements, the most promising is the use of methods of „soft chemistry” based on synthesis from aqueous or non-aqueous solutions at relatively low temperatures. Their key advantages are: the possibility of obtaining products with controlled composition and micromorphology, efficiency, environmental acceptance and so on.

Słowa kluczowe

EN

nanoscale materials; properties of bulk materials; inorganic materials on oxides

• Wydawca: Kielce University of Technology
• Czasopismo: Journal of New Technologies in Environmental Science
• Rocznik: 2020
• Tom: Vol. 4, nr 4
• Strony: 181--190
• Opis fizyczny: Bibliogr. 25 poz., rys., tab., wykr., wzory

Twórcy

autor

Dryuchenko Alexander

• Poltava National Technical University Named in Honor of Yuri Kondratyuk, Ukraine

autor

Storozhenko Dmitriy

• Poltava National Technical University Named in Honor of Yuri Kondratyuk, Ukraine

autor

Bunyakina Natalia

• Poltava National Technical University Named in Honor of Yuri Kondratyuk, Ukraine

autor

Ivanytska Irina

• Poltava National Technical University Named in Honor of Yuri Kondratyuk, Ukraine

autor

Kulchiy Alexander

• Poltava National Technical University Named in Honor of Yuri Kondratyuk, Ukraine

autor

Golubatnikov Dmitryi

• Poltava National Technical University Named in Honor of Yuri Kondratyuk, Ukraine

Bibliografia

• [1] Mazurenko E.A., Coordination compounds of metals, precursors of functional materials/Mazurenko E.A., Gerasimchuk A.I., Trunova E.K. et al., Ukr. Chem. Journe., 2004, Vol. 70, No. 7, pp. 32-37.
• [2] Belous A.G., Complex metal oxides for high-frequency and high-permeability dielectrics/Belous A.G., Ukr. Chem. Journe., 2008, Vol. 74, No. 1, pp. 3-21.
• [3] Melcher C.L., Nucl. Instr. Methods in Phus. Res, 2005, Vol. 1, A 537, pp. 6-14.
• [4] Yanagida T., Roh T. et al., Nucl. Instr. Methods in Phus. Res., 2007, Vol. 1, A 579, pp. 23-26.
• [5] Gavrilenko O.M., Crystallochemical features and properties of Li+,{Na+, K+}-substituted lanthanum niobates and defect-perovskite structure, Gavrilenko O.M., Pashkova O.V., Belous A.G., Ukr. Chem. Journe., 2005, Vol. 71, No. 8, pp. 73-77.
• [6] Solopan S.O., Synthesis and properties of composite structures based on ferroelectric and magnetic phases, Solopan S.O., Vunov O.I., Kovalenko L.L. et al., Ukr. Chem. Journe., 2006, Vol. 72, No. 1, pp. 28-31.
• [7] Kobylianska S.D., Synthesis of nanoscale systems (Li, La){Ti, Nb}O3) by Sol-gel method, Kobylianska S.D., Gavrilenko S.D., Gomza Y.P., Ukr. Chem. Journe, 2010, Vol. 76, No. 4, pp. 84-88.
• [8] Durilin D.A., Synthesis, structure and properties of solid solutions La0,7Ca0,3-хNaхMnO3, Durilin A.A., Yanchevskii A.H., Tovstolytkin A.I. et al., Ukr. Chem. Journe., 2004, Vol. 70, No. 9, pp. 34-37.
• [9] Gavrilenko O.M., Li leading materials based on niobates and lanthanum tantalates: synthesis, structure, properties, Gavrilenko O.M., Ukr. Chem. Journe., 2004, Vol. 70. No. 9, pp. 31-34.
• [10] Mittra R., Critical look at metamaterials, Radio Engineering and Electronics, 2007, Vol. 52, No. 9, pp. 1051-1058.
• [11] Belous A.G., The influence of the method of obtaining of phase transformations, structure and magnetoresistive properties of manganites La0,7Sr0,3MnO3y, Belous A.G., Pashkova E.V., Vunov O.I. et al., Ukr. Chem. Journe., 2005, Vol. 71, No. 5, pp. 17-23.
• [12] Titov Y.O., Feature means of creation of layer scandates SrLnnScnO3n+1 from systems of crystallized nitrates, Titov Y.O., Slobodyanik M.S., Kraevska Y.A. et al., Ukr. Chem. Journe., 2010, Vol. 76, No. 5, pp. 11-16.
• [13] Pashin C.F., Antipov E.V., Kovba L.M., Influence of cation substitution in solid solutions of YBa2-xSrxCu3Oy temperature superconductivity, Superconductivity: physics, chemistry, engineering, 1990, Vol. 3, No. 10, pp. 2386-2389.
• [14] Ueda K., 3rd Laser Ceramics Symp, 8-10 October 2007, Paris 2007, pp. IO-C-1.
• [15] Kudrenko E.A., Shmitko I.M., Strukova G.K., Structure of precursors of complex oxides REE obtained by thermolysis of solvent, Physics of Solid Body, 2008, Vol. 50, No. 5, pp. 924-930.
• [16] Smitko I.M., Kudrenko E.A., Strukova G.K., Initiating continuous action of heating on the phase formation during solid-phase synthesis of complex oxides of rare earth elements, Letters in GTAF, 2007, Vol. 86, No. 7, pp. 544-548.
• [17] Goroshenko Y.G., Physico-chemical analysis of homogeneous and heterogeneous systems, Goroshenko Y.G., Naukova Dumka, 1978, p. 490.
• [18] Anosov C.Y., Fundamentals of physico-chemical analysis, Anosov V.Y., Ozerova M.I., Fialkov Y.Y., M.: Nauka, 1976, p. 503.
• [19] Parsonidg N., Disorder in crystals, P. 1, Parsonig N., Stably L, M.: Mir, 1982, p. 434.
• [20] Thermal constants of substances, Vol. 10, Ch. Tables of accepted values, M.: Nauka, 1978, p. 442.
• [21] Carling Robert W., Heat capacities of NaNO3 and KNO3 from 350 to 800 K, Thermochim. Acta., 1983, Vol. 60, No. 3, pp. 265-275.
• [22] Nissen Donald A., Thermophysical properties of the equimolar mixture NaNO3 - KNO3 from 300 to 600°C, J. Chem. and Eng. Data., 1982, Vol. 27, No. 3, pp. 269-273.
• [23] Shurov V.G., Alekseeva O.M., Thermal graphical studies of decomposition of lanthanide nitrates in range of lanthanum - samarium [in:] Thermal analysis and phase equilibria, Publishing House of Perms, State University, Perm 1982, pp. 38-45.
• [24] Turceva T.I., Gliserman V.I., Spectroscopic study of aqueous solutions of nitrates of rare-earth elements, Vestnik St. Petersburg University. Mosk. Univ. Chemistry, 1973, Vol. 14, No. 1, pp. 51-54.
• [25] Dryuchko A.G., The use of features of temperature transformations of coordination nitrates REE in production of electronics products, Dryuchko A.G., Storozhenko D.A., Bunyakina N.V. et al., New Technology, Scientific Herald of KWAITO, 2004, No. 1-2 (4-5), pp. 53-57.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).