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58. Park, C.S., Kim, S.W., Park, G.T., Choi, J.J., Kim, H.E.: Orientation control of
lead zirconate titanate film by combination of sol-gel and sputtering deposition.
J. Mater. Res.
20
(1), 243-246 (2005)
59. Kanno, I., Kotera, H., Wasa, K., Matsunaga, T., Kamada, T., Takayama, R.:
Crystallographic characterization of epitaxial Pb(Zr, Ti)O3 films with different
Zr/Ti ratio grown by radio-frequency-magnetron sputtering. J. Appl. Phys.
93
(7),
4091-4096 (2003)
60. Zhang, S., Xia, R., Lebrun, L., Anderson, D., Shrout, T.: Piezoelectric materials
for high power, high temperature applications. Mater. Lett.
59
, 3471-3475 (2005)
61. Lee, J., Bosman, G., Green, K., Ladwing, D.: Model and analysis of gate leakage
current in ultrathin nitrided oxide MOSFETs. IEEE Trans. Electron Devices
49
(7), 1232-1241 (2002)
62. Lee, J.W., Park, G.T., Park, C.S., Kim, H.E.: Enhanced ferroelectric properties of
Pb(Zr, Ti)O3 films by inducing permanent compressive stress. Appl. Phys. Lett.
88
(7), 072908 (2006)
63. Park, C.S., Lee, J.W., Park, G.T., Kim, H.E.: Microstructural evolution and
piezoelectric properties of thick Pb(Zr, Ti)O3 films deposited by multi-sputtering
method: Part I. Microstructural evolution. J. Mater. Res.
22
(5), 1367-1372 (2007)
64. Xu, F., Trolier-McKinstry, S., Ren, W., Xu, B., Xie, Z.L., Hemker, K.: Domain
wall motion and its contribution to the dielectric and piezoelectric properties of
lead zirconate titanate films. J. Appl. Phys.
89
(2), 1336-1348 (2001)
65. Abellard, A., Kuscer, D., Holc, J., Levassort, F., Noshchenko, O., Lethiecq,
M., Kosec, M.: Fabrication and modeling of piezoelectric transducers for high-
frequency medical imaging. In: Proceeding of the 47th International Conference
on Microelectronics, Devices and Materials (2011)
66. Hsu, H.S., Benjauthrit, V., Wei, Q., Huang, Y., Zhou, Q., Shung, K.: Silver doped
0.9PMN-PT-0.1PZT composite films for very high frequency ultrasonic trans-
ducer applications. Appl. Phys. A
111
(2), 459-463 (2013)
67. Fu, Y., Luo, J., Du, X., Flewitt, A., Li, Y., Markx, G., Walton, A., Milne,
W.: Recent developments on ZnO films for acoustic wave based bio-sensing and
microfluidic applications: a review. Sens. Actuat. B-Chem.
143
(2), 606-619 (2010)
68. Cleland, A., Pophristic, M., Ferguson, I.: Single-crystal aluminum nitride nanome-
chanical resonators. Appl. Phys. Lett.
79
(13), 2070-2072 (2001)
69. Dubois, M., Muralt, P.: Properties of aluminum nitride thin films for piezoelectric
transducers and microwave filter applications. Appl. Phys. Lett.
74
(20), 3032-
3034 (1999)
70. Piazza, G., Stephanou, P., Pisano, A.: Piezoelectric aluminum nitride vibrating
contour-mode MEMS resonators. J. Microelectromech. Syst.
15
(6), 1406-1418
(2001)
71. Panda, P.: Review: environmental friendly lead-free piezoelectric materials. J.
Mater. Sci.
44
, 5049-5062 (2009)
72. von Hippel, A., Breckenridge, R., Chesley, F., Tisza, L.: High dielectric constant
ceramics. Ind. Eng. Chem.
38
(11), 1097-1109 (1946)
73. Muralt, P.: Ferroelectric thin films for micro-sensors and actuators: a review. J.
Micromech. Microeng.
10
, 136-146 (2000)
74. Turner, R., Fuierer, P., Newnham, R., Shrout, T.: Materials for high temperature
acoustic and vibration sensors: a review. Appl. Acoust.
41
, 299-324 (1994)
75. de Araujo, C., Taylor, G.: Integrated ferroelectrics. Ferroelectr. Taylor & Francis
41
, 299-324 (1991)
76. Pritchard, J., Bowen, C., Lowrie, F.: Multilayer actuators: review. Br. Ceram.
Trans.
100
(6), 265-273 (2001)
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