Growth of Epitaxial-Like (Sr0.5Ba0.5)Nb2O6 Ferroelectric Films

Lu‐Yin Lin; Tseung‐Yuen Tseng; Sheuan‐Perng Lin; Shun‐Lih Tu; Sheng-Jenn Yang; Jenn-Jung Harn; Kuo‐Shung Liu; I‐Nan Lin

doi:10.1143/jjap.34.l625

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Growth of Epitaxial-Like (Sr_0.5Ba_0.5)Nb₂O₆ Ferroelectric Films

Lu‐Yin Lin Tseung‐Yuen Tseng Sheuan‐Perng Lin Shun‐Lih Tu Sheng-Jenn Yang Jenn-Jung Harn Kuo‐Shung Liu I‐Nan Lin

Year: 1995 Journal: Japanese Journal of Applied Physics Vol: 34 (5B)Pages: L625-L625 Publisher: Institute of Physics

DOI: 10.1143/jjap.34.l625

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Abstract

Epitaxial-like (Sr 0.5 Ba 0.5 )Nb 2 O 6 (SBN) films were successfully grown on (100) silicon substrates, using [002] CeO 2 as the buffer layer and [00 l ] YBa 2 Cu 3 O 7- x (YBCO) as the base electrode. The θ-2θ scan and φ-scan X-ray diffraction suggest that [210] SBN || [100] YBCO || [110]CeO 2 || [110] Si . The ferroelectric hysteresis curves measured by the modified Sawyer-Tower technique show that the epitaxial-like SBN/YBCO/CeO 2 /Si films possess substantially better ferroelectricity than the polycrystalline SBN/Pt(Ti)/Si films. The remanent polarization ( P r ) and coercive field ( E c ) are, respectively, P r =27.2 µ C/cm 2 and E c =24.8 kV/cm.

Keywords:

Ferroelectricity Epitaxy Materials science Hysteresis Crystallite Coercivity Silicon Analytical Chemistry (journal) Diffraction Condensed matter physics Crystallography Layer (electronics) Optoelectronics Optics Nanotechnology Dielectric Chemistry Metallurgy Physics

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Growth of Epitaxial-Like (Sr_0.5Ba_0.5)Nb₂O₆ Ferroelectric Films

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