**Author details**

Phan Trong Tue\* and Yuzuru Takamura

\*Address all correspondence to: phan-tt@jaist.ac.jp

School of Materials Science, Japan Advanced Institute of Science and Technology, Nomi-shi, Ishikawa, Japan

[11] Morita T et al. Ferroelectric properties of an epitaxial lead zirconate titanate thin film deposited by a hydrothermal method below the Curie temperature. Applied Physics

[13] Wang Z et al. Crystallization of ferroelectric lead zirconate titanate thin films by microwave annealing at low temperatures. Journal of the American Ceramic Society. 2011;

[15] Shimura R et al. Solution-based process with thermal UV treatment for fabrication of piezoelectric PZT films for an actuator array at temperatures under 450°C. Sensors and

sis of lead zirconate titanate thin films. Journal of the American Ceramic Society. 2002;

of Pb-rich intermediate phases. Journal of the American Ceramic Society. 1994;**77**(9):2332-

[17] Wu A et al. Characterization of seeded sol–gel lead zirconate titanate thin films. Journal

[19] Huang Z, Zhang Q, Whatmore RW. The role of an intermetallic phase on the crystallization of lead zirconate titanate in sol–gel process. Journal of Materials Science Letters.

[20] Huang Z, Zhang Q, Whatmore RW. Low temperature crystallization of lead zirconate titanate thin films by a sol-gel method. Journal of Applied Physics. 1999;**85**(10):7355-7361

[21] Guozhang Cao and Ying Wang. Nanostructures and nanomaterials: Synthesis, proper-

[22] Yoshimura M, Byrappa K. Hydrothermal processing of materials: Past, present and future.

[23] Katsuhiko S et al. Preparation of lead zirconate titanate thin film by hydrothermal

[24] Takayuki K et al. Bending actuator using lead zirconate titanate thin film fabricated by hydrothermal method. Japanese Journal of Applied Physics. 1992;**31**(9S):3090

[25] Morita T, Kanda T, Yamagata Y, Kurosawa M, Higuchi T. Single process to deposit lead zirconate titanate (PZT) thin film by a hydrothermal method. Japanese Journal of

ties and applications. World Scientific. 2011. ISBN 978-981-4322-50-8

method. Japanese Journal of Applied Physics. 1991;**30**(9S):2174

Journal of Materials Science. 2008;**43**(7):2085-2103

Applied Physics. 1997;**36**:2998-2999

electrodes prepared at low temperature. Japanese Journal of Applied

Lead Zirconium Titanate Films and Devices Made by a Low-Temperature Solution-Based Process

thin films on La0.5Sr0.5CoO3

109

http://dx.doi.org/10.5772/intechopen.79378

thin films. Applied

thin films: I, role

Pb formation during the pyroly-

Tix )O3

Letters. 2004;**84**(25):5094-5096

and LaNi0.6 Co0.4O3

**94**(2):404-409

**85**(3):641-646

1998;**17**(14):1157-1159

2336

Physics. 2001;**40**(4R):2357

Physics Letters. 2011;**99**(4):042903

Actuators A: Physical. 2017;**267**:287-292

[16] Wu A et al. Effect of lead zirconate titanate seeds on Pt<sup>x</sup>

of the European Ceramic Society. 1999;**19**(6):1403-1407

[18] Chen S-Y, Chen IW. Temperature–time texture transition of Pb(Zr1−<sup>x</sup>

[12] Il DK, Ho GK. Characterization of highly preferred Pb(Zr,Ti)O<sup>3</sup>

[14] Bharadwaja SSN et al. Highly textured laser annealed Pb(Zr0.52Ti0.48)O3
