[1]
|
Y. Shimizu and N. Yamashita, “Solid Electrolyte CO2 sensor using NASICON and Perovskite-Type Oxide Electrode”, Sensors and Actuators, Vol. B62, 2000, pp. 102-106.
|
[2]
|
B. Seyfi, M. Baghalha and H. Kazemian, “Modified LaCoO3 Nano-Perovskite Catalysts for the Enviromental Application of Automotive CO Oxidation”, Chemical Engineering Journal, Vol. 148, 2009, pp. 306-311.
|
[3]
|
M. Misono, “ Recent Progress in the Practical Applications of Heteropolyacid and Perovskite Catalysts: Catalytic Technology for the Sustainable So-ciety”, Catalysis Today, Vol. 144, 2009, pp. 285-291.
|
[4]
|
Z.?. Lazarevi?, M. Vijatovi?, Z. Doh?evi?-Mitrovi?, N.?. Rom?evi?, M.J. Rom?evi?, N. Paunovi? and B.D. Stojanovi?, “The Characterization of the Barium Titanate Ceramic Powders Prepared by the Pechini Type Reaction Route and Mechanically Assisted Synthesis”, Journal of European Ceramic Society, Vol. 30, 2010, pp. 623-628.
|
[5]
|
R.D. Adams, R. Layland and C. Payen, “A New Mixed-Metal Titanate. The Syn-thesis and Characterization of Ba2NiTi5O13”, Chemistry of Materials, Vol. 7, 1995, pp. 2168-2170.
|
[6]
|
A.C. Caballero, J.F. Fernández, C. Moure, P. Durán and Y.-M. Chiang, “Grain Growth Control and Dopant Distribution in ZnO-Doped BaTiO3”, Journal of American Ceramic Society, Vol. 81, 1998, pp. 939-944.
|
[7]
|
V. Vinothini, P. Singh and M. Balasubramanian, “Synthesis of Barium Titanate Nanopowder Using Polymeric Precursor Me-thod”, Ceramic International, Vol. 32, 2006, pp. 99-103.
|
[8]
|
M.Z.-C. Hu, V. Kurian, E.A. Payzant, C.J. Rawn, and R.D. Hunt, “Wet-Chemical Synthesis of Mo-nodispersed Barium Titanate Particles - Hydrothermal Conversion of TiO2 Microspheres to Nanocrystalline BaTiO3”, Powder Technology, Vol. 110, 2000, pp. 2-14.
|
[9]
|
S.K. Lee, T.J. Park, G.J. Choi, K.K. Koo and S.W. Kim, “Effects of KOH/BaTi and Ba/Ti ratios on Synthesis of BaTiO3 Powder by Coprecipita-tion/Hydrothermal Reaction”, Materials Chemistry and Physics, Vol. 82, 2003, pp. 742-749.
|
[10]
|
Y. Zhang, L. Wang and D. Xue, “Molten Salt Route of Well Dispersive Barium Titanate Nanoparticles”, Powder Technology, Vol. 217, 2012, pp. 629-633.
|
[11]
|
S. Sreekantan, A.F.M. Noor, Z.A. Ahmad, R. Othman and A. West, “Structural and Electrical Characteristic of Crystalline Barium Titanate Synthesized by Low Temperature Aqueous Method”, Journal of Materials Processing Technology, Vol. 195, 2008, pp. 171-177.
|
[12]
|
S. Zhang, F. Jiang, G. Qu, and C. Lin, “Synthesis of Single-Crystalline Perovskite Barium Titanate Nanorods by A Combine Route Based on Sol-Gel and Surfactant-Templated Methods”, Materials Letters, Vol. 62, 2008, pp. 2225-2228.
|
[13]
|
A. Abreu Jr, S.M. Zanetti, M.A.S. Oliveira and G.P. Thim, “Effect of Urea on Lead Zirconate Titanate-Pb(Zr0.52Ti0.48)O3-Nanopowders Syn-thezied by the Pechini Method”, Journal of the European Ceramic Society, Vol. 25, 2005, pp. 743-748.
|
[14]
|
K.K. Lee, Y.C. Kang, K.Y. Jung and J.H. Kim, “Preparation of Nano-Sized BaTiO3 Particle by Citric Acid-Assisted Spray Pyrolysis”, Journal of Alloys and Compounds, Vol. 395, 2005, pp. 280-285.
|
[15]
|
K.Y. Chew, M. Abu Bakar, “Two Steps Synthesis of Quaternary Metal Titanate of Ba2NiTi5O13 and Characterization”, Advanced Materials Research, Vol. 364, 2012, pp. 353-358.
|
[16]
|
A. Hardy, J.D’ Haen, M.K. Van Bael and J. Mullens, “An Aqueous Solution-Gel Citratoperoxo-Ti(IV) Precursor: Synthesis, Gelation, Thermo-Oxidative Decomposition and Oxide Crystallization”, Journal of Sol-Gel Science and Tech-nology, Vol. 44, 2007, pp. 65-74.
|
[17]
|
W.-D. Yang, K.-M. Hung and C.-F. Kao, “Preparation and Dielectric Properties of Semiconducting Lanthanum-Doped Stro-tium Ttitante Ceramics from Titanyl Citrate Precursors”, Ceramics International, Vol. 26, 2000, pp. 475-484.
|