High-temperature piezoelectirc thin films of 0.20BiInO3-0.80PbTiO3 deposited by pulsed laser deposition（Retracted Article)

Wang Wei; Tang Jia-Wei; Wang Le-Tian; Chen Xiao-Bing

doi:10.7498/aps.62.237701

Abstract

High-temperature piezoelectric thin films of 0.20BiInO3-0.80PbTiO3 (20BI-PT) were prepared via pulsed laser deposition and investigated by comparison with 0.15BiInO3-0.85PbTiO3(15BI-PT). XRD patterns show that (100) peak of 20BI-PT has been split, indicating a higher tetragnality than in 15BI-PT. FESEM images reveal some triangular grains corresponding to [111]-oriented grains in 20BI-PT. The remanent polarization (Pr) and coercive field (Ec) of 20BI-PT are ～ 28 C/cm2 and ～120 kV/cm, respectively. It is shown that the transverse piezoelectric coefficient e31, f keeps almost the same in 20BI-PT and 15BI-PT. The temperature dependence of dielectric permittivity in 20BI-PT reveals a higher Curie temperature (590 ℃) than that in 15BI-PT and no apparent frequency dependence is detected. Rayleigh analyses are performed to identify the extrinsic contributions to dielectric nonlinearity for different x. It is seen that x=0.15 exhibits greater extrinsic contributions to dielectric nonlinearity than the other compositions.

Keywords:

Authors and contacts

1.
College of Physical Science and Technonolgy, Yangzhou University, Yangzhou 225002, China
Funds: Project supported by the National Natural Science Foundation of China (Grant No. 51072177), and the Natural Science Foundation of the Higher Education Institutions of Jiangsu Province, China (Grant No. 08KJB140011).

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Cited By

[1]	Randall C A, Eitel R E, Stringer C, Song T H, Zhang S J, Shrout T R 2004 High Performance, High Temperature Perovskite Piezoelectric Ceramics in Piezoelectric Single Crystals edited by S. Trolier-McKinstry (The Pennsylvania State University, University Park, 2004)
[2]	Turner R C, Fuierer P A, Newnham R E, Shrout T R 1994 Appl. Acoust. 41 299
[3]	Liu P, Yang T Q, Zhang L Y 2000 Acta Phys. Sin. 49 2300 (in Chinese) [刘鹏, 杨同青, 张良莹 2000 物理学报 49 2303]
[4]	Eitel R E, Randall C A, Shrout T R 2001 Jpn. J. Appl. Phys. Part 1 40 5999
[5]	Eitel R E, Randall C A, Shrout T R 2002 Jpn. J. Appl. Phys. Part 1 41 2099
[6]	Nino J C, Trolier-McKinstry S 2004 J. Mater. Res. 19 568
[7]	Wen H, Wang X, Zhong C, Shu L, Li L 2007 Appl. Phys. Lett. 90 202902
[8]	Grinberg I, Suchomel M R, Davies P K, Rappe A M 2005 J. Appl. Phys. 98 094111
[9]	Duan R, Speyer R F, Alberta E, Shrout T R 2004 J. Mater. Res. 19 2185
[10]	Zhang S, Xia R, Randall C A, Shrout T R, Duan R, Speyer R F 2005 J. Mater. Res. 20 2067
[11]	Ko S W, Yeo H G, Trolier-McKinstry S 2009 Appl. Phys. Lett. 95 162901
[12]	Lee S Y, Ko S W, Lee S, Trolier-McKinstry S 2012 Appl. Phys. Lett. 100 212905
[13]	Qin B, Chen Y, Jiang Y, Xue X, Xiao D, Zhu J 2007 Proceedings of the 16th IEEE International Symposium on Applications of Ferroelectric 616–617
[14]	Wilke R H T, Moses P, Jousse P, Yeager C, Trolier-McKinstry S 2012 Sensors and Actuators A 173 152
[15]	Shannon R D 1976 Acta Cryst. A 32 751
[16]	Li Y, Yang Y, Yao J, Viswan R, Wang Z, Li J, Viehland D 2012 Appl. Phys. Lett. 101 022905
[17]	Sun P N, Cui L, Lu T Q 2009 Chin. Phys. B 18 1658
[18]	Yang N, Chen G H, Zhang Y 2000 Acta Phys. Sin. 49 2225 (in Chinese) [杨宁, 陈光华, 张阳 2000 物理学报 49 2225]
[19]	Shimakawa Y, Kubo Y, Nakagawa Y, Goto S, Kamiyama T, Asano H, Izumi F 2000 Phys. Rev. B 61 6559
[20]	Noguchi Y, Miwa I, Goshima Y, Miyayama M 2000 Jpn. J. Appl. Phys. 39 L1259
[21]	Gharb N B, Trolier-McKinstry S 2005 J. Appl. Phys. 97 064106
[22]	Ihlefeld J F, Shelton C T 2012 Appl. Phys. Lett. 101 052902
[23]	Damjanovic D, Demartin M 1996 J. Phys. D: Appl. Phys. 29 2057

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Vol. 62, Issue 23 - 2013-12-05

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