Abstract
Solid solutions Bi4V2-x Fe x/2Nb x/2O11-δ (х = 0.05–1.0) and Bi4V2-х-y Fe x Nb y O11–δ (with fixed x or y = 0.2 and variable х or y = 0.2–0.5 with step 0.1) were synthesized by the standard ceramic technology in the temperature range 773–1113 K and by mechanochemical activation method using Bi2O3, V2O5 Fe2O3, and Nb2O5 oxides as initial compounds. The formation of solid solutions was studied. Ranges of stability and temperature values of phase transitions for different polymorphous modifications were defined using dylatometric and thermo gravimetric studies. The morphology and the local chemical composition of the ceramic samples were studied. Samples with concentration of dopants x > 0.3 contain two phases; both major and impurity phases are solid solutions of the BIFENBVOX type although the dopants atoms distribution between them is random. The thermal expansion coefficients (TEC) were measured. The electrical conductivity of ceramic samples was investigated in a wide range of temperatures. The highest conductivity values among the studied solid solutions are observed for the sample with a small amount of dopants x = 0.25.
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Morozova MV, Buyanova ES, Emelyanova JV, Zhukovskiy VM, Petrova SA (2011) Highconducting oxide ceramics BIMEVOX: Synthesis, structure, and properties. Solid State Ionics 192:153–157. doi:10.1016/j.ssi.2010.04.020
Alga M, Ammar A, Tanouti B, Outzourhit A, Mauvy F, Decourt R (2005) Effect of niobium doping on structural, thermal, sintering and electrical properties of Bi4V1.8Cu0.2O10.7. J Solid State Chem 178:2873–2879. doi:10.1016/j.jssc.2005.06.030
Guillodo M, Bassat JM, Fouletier J, Dessemond L, Del Gallo P (2003) Oxygen diffusion coefficient and oxygen exchange coefficient of BIMEVOX.10 (ME=Cu, Co) ceramic membranes. Solid State Ionics 164:87–96. doi:10.1016/S0167-2738(03)00306-0
Krok F, Abrahams I, Malis M, Bogusz W, Nelstrop JAG (1997) Structural and electrical characterisation of BICOCUVOX. Ionics 3:235–238
Paydar MH, Hadian AM, Fafilek G (2001) Studies on preparation, characterization and ion conductivity of Ti – Cu double substituted Bi4V2O11. J Eur Ceram Soc 21:1821–1824
Fuierer P, Maier R, Röder-Roith U, Moos R (2011) Processing issues related to the bi-dimensional ionic conductivity of BIMEVOX ceramics. J Mater Sci 46:5447–5453. doi:10.1007/s10853-011-5486-8
Emel’yanova YV, Tsygankova EN, Petrova SA, Buyanova ES, Zhukovskii VM (2007) Synthesis, structure, and conduction of solid solutions BIMEVOX (Me = Cu, Ti) R. J Electrochem 43(6):737–741. doi:10.1134/S1023193507060183
Buyanova ES, Petrova SA, Emel’yanova YV, Borodina NA, Zakharov RG, Zhukovskii VM (2009) Crystal structure and conduction of BICUTIVOX R. J Inorg Chem 54(6):864–872. doi:10.1134/S0036023609060084
Buyanova ES, Morozova MV, Emel’yanova YV, Mikhailovskaya ZA, Petrova SA, Zakharov RG, Tarakina NV, Zhukovskii VM (2011) Some features of the preparation, structure, and properties of BICUTIVOX R. J Inorg Chem 56(12):1853–1857. doi:10.1134/S0036023611120291
Morozova MV, Buyanova ES, Emelyanova YV, Zhukovskiy VM, Petrova SA, Zakharov RG, Tarakina NV (2011) Specific features in the synthesis, crystal structure and electrical conductivity of BICUTIVOX. Solid State Ionics 201:27–34. doi:10.1016/j.ssi.2011.07.010
Beg S, Salami NS (2014) Study on the electrical properties of Co–Ti double substituted Bi4V2O11. J Alloys Compd 586:302–307
Beg S, Hafeez S, Al-Areqi NAS (2014) Study of phase stabilization and oxide–ion conductivity in BICUMGVOX solid electrolyte. Solid State Ionics 261:125–130
Joubert O, Jouanneaux A, Ganne M, Vannier RN, Mairesse G (1994) Solid phase synthesis and characterization of new BIMEVOX series: Bi4V2−xMxO11 (M = Sbv, Nbv). Solid State Ionics 73(3–4):309–318. doi:10.1016/0167-2738(94)90049-3
Steil MC, Ratajczak F, Capoen E, Pirovano C, Vannier RN, Mairesse G (2005) Thermal stability and preparation of dense membrane ceramics of BIMEVOX. Solid State Ionics 176:2305–2312. doi:10.1016/j.ssi.2005.06.017
Buyanova ES, Petrova SA, Emel’yanova YV, Blinova AL, Morozova MV, Zhukovskii VM, Zhuravlev VD (2009) Preparation, structure, and charge transport characteristics of BIFEVOX ultrafine powders R. J Inorg Chem 54(8):1193–1204. doi:10.1134/S0036023609080051
Buyanova ES, Morozova MV, Emel’yanova YV, Petrova SA, Zakharov RG, Zhukovskii VM (2013) Synthesis, structure, and conductivity of BINBVOX ceramics R. J Inorg Chem 58(3):259–264. doi:10.1134/S0036023613030030
Buyanova ES, Morozova MV, Emelyanova JV, Petrova SA, Zakharov RG, Tarakina NVC, Zhukovskiy VM (2013) Structure, thermal stability and electrical conductivity of BINBVOX. Solid State Ionics 243:8–17. doi:10.1016/j.ssi.2013.04.009
Diffrac Plus: Topas Bruker AXS GmbH, Ostliche. Rheinbruckenstraße 50, D-76187, Karlsruhe, Germany. 2006
Laugier J, Bochu B (2003) // LMGP-suite of programs for the interpretation of X-ray experiments. ENSP. Grenoble, Lab. Materiaux Genie Phys
Alga M, Ammar A, Essalim R, Tanouti B, Mauvy F, Decourt R (2005) Synthesis, sintering and electrical properties of P-doped Bi4V2O11 ceramics. Solid State Sci 7:1173–1179. doi:10.1016/j.solidstatesciences.2005.06.011
Sannes NM, Tompsett G, Cartner AM (1995) Characterization of bismuth lead oxide by vibrational spectroscopy. J Mater Sci 30(17):4299–4308
Wu Y, Wang X (2011) Preparation and characterization of single-phase α-Fe2O3 nano-powders by pechini sol–gel method. Mater Lett 65:2062–2065. doi:10.1016/j.matlet.2011.04.004
Beg S, Al-Areqi NAS, Al-Alas A (2009) Composition dependence of the phase transition and ionic conductivity in BIHFVOX system. J Alloys Compd 479:107–112
Beg S, Hafeez S, Al-Areqi NAS (2010) Influence of calcium substitution on the phase transition and ionic conductivity in BICAVOX oxide ion conductor. Phase Transit 83:169–181. doi:10.1080/01411591003607263
Irvine JTS, Sinclair DC, West AR (1990) Electroceramics: characterization by impedance spectroscopy. Adv Mater 2(3):132–138
Abrahams I, Krok F (2002) Defect chemistry of the BIMEVOXes. J Mater Chem 12:3351–3362. doi:10.1039/B203992N
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This research project has been supported by UrFU under the Framework Program of development of UrFU through the “Young scientists UrFU” competition.
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Buyanova, E.S., Morozova, M.V., Emelyanova, Y.V. et al. Synthesis, structure, and properties of BIFENBVOX. Ionics 21, 2815–2823 (2015). https://doi.org/10.1007/s11581-015-1483-2
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DOI: https://doi.org/10.1007/s11581-015-1483-2