Effect of excess Nb2O5 on the growth behavior of KSr2Nb5O15 particles by molten salt synthesis
暂无分享,去创建一个
[1] F. Gao,et al. Phase field simulation for the evolution of textured ceramics microstructure , 2012 .
[2] F. Gao,et al. PHASE-FIELD SIMULATION FOR MICROSTRUCTURAL DEVELOPMENT OF TEXTURED CERAMICS PREPARED BY REACTION TEMPLATED GRAIN GROWTH , 2012 .
[3] M. Salavati‐Niasari,et al. Hydrothermal synthesis and optical properties of antimony sulfide micro and nano-size with different morphologies , 2012 .
[4] R. Zuo,et al. Synthesis and characterization of (001) oriented BaTiO3 platelets through a topochemical conversion , 2012 .
[5] Y. Hayakawa,et al. Effect of Cu or Co addition on β-FeSi2 growth by molten salt method , 2012 .
[6] Hao Wang,et al. Preparation and Piezoelectricity of NaNbO3 High‐Density Ceramics by Molten Salt Synthesis , 2011 .
[7] F. Gao,et al. Texture development and dielectric relaxor behavior of 0.80Na0.5Bi0.5TiO3–0.20K0.5Bi0.5TiO3 ceramics templated by plate-like NaNbO3 particles , 2011 .
[8] Y. Cong,et al. Low-temperature preparation of single crystal titanium carbide nanofibers in molten salts , 2011 .
[9] P. Fuierer,et al. Synthesis of TiO2 scaffold by a 2 step bi-layer process using a molten salt synthesis technique , 2011 .
[10] Xu Yu,et al. Synthesis of LiNi1/3Co1/3Al1/3O2 cathode material with eutectic molten salt LiOH-LiNO3 , 2011 .
[11] Shuang Liu,et al. Molten salt synthesis of SrTiO3 nanocrystals using nanocrystalline TiO2 as a precursor , 2011 .
[12] S. Alkoy,et al. Electrical Properties of 1–3 Piezocomposites Prepared from Textured KSr2Nb5O15 (KSN) Ceramic Fibers , 2011 .
[13] Juan Li,et al. Template-Free and Scalable Synthesis of Core-Shell and Hollow BaTiO3 Particles: Using Molten Hydrated Salt as a Solvent , 2009 .
[14] Liu Zhou,et al. Topochemical reaction of SrTiO3 platelet crystals based on Sr3Ti2O7 platelet precursor in molten salt synthesis process , 2009 .
[15] S. Alkoy,et al. Electrical Properties of Textured Potassium Strontium Niobate (KSr2Nb5O15) Ceramics Fabricated by Reactive Templated Grain Growth , 2008 .
[16] F. Gao,et al. Fabrication and electrical properties of textured (Na,K)0.5Bi0.5TiO3 ceramics by reactive-templated grain growth , 2008 .
[17] Z. Kato,et al. C‐Axis Orientation of KSr2Nb5O15 Using a Rotating Magnetic Field , 2007 .
[18] Zhenxiang Cheng,et al. A novel aqueous solution method for K3Li2Nb5O15 film and powder , 2007 .
[19] Yunfei Liu,et al. Formation Mechanisms of Platelet Sr3Ti2O7 Crystals Synthesized by the Molten Salt Synthesis Method , 2007 .
[20] Zupei Yang,et al. Preparation and morphology of anisometric KSr2Nb5O15 particles , 2007 .
[21] C. Duran. Processing and ferroelectric behavior of textured KSr2Nb5O15 ceramics , 2006 .
[22] E. Vlieg,et al. On the determination of step energies. Theoretical considerations and application to an anisotropic Kossel model , 2006 .
[23] H. Nomura,et al. Computational Design for Grain‐Oriented Microstructure of Functional Ceramics Prepared by Templated Grain Growth , 2006 .
[24] Toshio Kimura. Application of texture engineering to piezoelectric ceramics : A review , 2006 .
[25] E. Vlieg,et al. Birth-and-spread growth on the Kossel and a non-Kossel surface , 2006 .
[26] A. Safari,et al. Synthesis of high aspect ratio platelet SrTiO3 , 2005 .
[27] F. Gao,et al. Molten salt synthesis of anisometric KSr2Nb5O15 particles , 2005 .
[28] S. Trolier-McKinstry,et al. Molten salt synthesis of anisometric particles in the SrO–Nb2O5–BaO system , 2004 .
[29] Svein Stølen,et al. Chemical thermodynamics of materials , 2004 .
[30] H. Nomura,et al. Design of grain oriented microstructure by the Monte Carlo simulation of sintering and isotropic grain growth , 2003 .
[31] S. Trolier-McKinstry,et al. Kinetics of Templated Grain Growth of 0.65Pb(Mg1/3Nb2/3)O3·0.35PbTiO3 , 2001 .
[32] P. Rehrig,et al. Templated Grain Growth of Textured Piezoelectric Ceramics , 2001 .
[33] G. Messing,et al. Kinetics of template growth in alumina during the process of templated grain growth (TGG) , 2001 .
[34] M. Vaudin,et al. Texture Development and Microstructure Evolution in Liquid‐Phase‐Sintered α‐Alumina Ceramics Prepared by Templated Grain Growth , 2000 .
[35] Y. Shinozuka. Mechanism of Defect Reactions in Semiconductors , 1996 .
[36] G. Picard,et al. The Niobium Chemistry in Molten LiCl+KCl Eutectic , 1991 .
[37] E. Kaldis,et al. Crystal growth from high-temperature solutions , 1976 .
[38] R. Clarke,et al. The electro-optic properties of ferroelectric KSN crystals , 1974 .
[39] E. Giess,et al. Phase Equilibria in the KNbO3‐SrNb2O6 and KNbO3‐BaNb2O6 Systems , 1970 .
[40] G. Burns,et al. FERROELECTRIC AND OPTICAL PROPERTIES OF KSr2Nb5O15 , 1967 .
[41] W. Webb,et al. Growth and Defect Structure of Sapphire Microcrystals , 1957 .