Page 348 - Read Online
P. 348
Page 10 of 11 Zhang et al. Microstructures 2023;3:2023046 https://dx.doi.org/10.20517/microstructures.2023.57
9. Sun E, Cao W. Relaxor-based ferroelectric single crystals: growth, domain engineering, characterization and applications. Prog Mater
Sci 2014;65:124-210. DOI PubMed PMC
10. Wada S, Yako K, Kakemoto H, Tsurumi T, Kiguchi T. Enhanced piezoelectric properties of barium titanate single crystals with
different engineered-domain sizes. J Appl Phys 2005;98:014109. DOI
11. Wada S, Suzuki S, Noma T, et al. Enhanced piezoelectric property of barium titanate single crystals with engineered domain
configurations. Jpn J Appl Phys 1999;38:5505. DOI
12. Vanderbilt D, Cohen MH. Monoclinic and triclinic phases in higher-order Devonshire theory. Phys Rev B 2001;63:094108. DOI
13. Park MH, Lee YH, Kim HJ, et al. Morphotropic phase boundary of Hf Zr O thin films for dynamic random access memories. ACS
1-x x 2
Appl Mater Interfaces 2018;10:42666-73. DOI
14. Sarott MF, Rossell MD, Fiebig M, Trassin M. Multilevel polarization switching in ferroelectric thin films. Nat Commun 2022;13:3159.
DOI PubMed PMC
15. Chang WY, Chung CC, Yuan ZY, et al. Patterned nano-domains in PMN-PT single crystals. Acta Mater 2018;143:166-73. DOI
16. Yamamoto Y, Itsumi K, Hosono Y. Effects of manganese oxides/gold composite electrode on piezoelectric properties of lead
magnesium niobate titanate single crystal. Jpn J Appl Phys 2011;50:09NC05. DOI
17. Luo C, Wan H, Chang WY, et al. Effect of low-frequency alternating current poling on 5-mm-thick 0.7Pb(Mg Nb )O -0.3PbTiO 3
2/3
3
1/3
single crystals. Appl Phys Lett 2019;115:192904. DOI
18. Wan H, Luo C, Chang WY, Yamashita Y, Jiang X. Effect of poling temperature on piezoelectric and dielectric properties
of 0.7Pb(Mg Nb )O -0.3PbTiO single crystals under alternating current poling. Appl Phys Lett 2019;114:172901. DOI
1/3
3
3
2/3
19. Yamashita Y, Yamamoto N, Hosono Y, Itsumi K. Piezoelectric transducer, ultrasonic probe, and piezoelectric transducer
manufacturing method. 2015. Available from: https://patents.google.com/patent/US20150372219 [Last accessed on 1 Dec 2023].
20. Yamamoto N, Yamashita Y, Hosono Y, Itsumi K, Higuchi K. Ultrasonic probe, piezoelectric transducer, method of manufacturing
ultrasonic probe, and method of manufacturing piezoelectric transducer. 2014. Available from: https://patents.google.com/patent/
US20140062261A1/en [Last accessed on 1 Dec 2023]
21. Deng C, Ye L, He C, et al. Reporting excellent transverse piezoelectric and electro-optic effects in transparent rhombohedral PMN-PT
single crystal by engineered domains. Adv Mater 2021;33:e2103013. DOI
22. Chang WY, Chung CC, Luo C, et al. Dielectric and piezoelectric properties of 0.7 Pb(Mg Nb )O -0.3 PbTiO single crystal poled
1/3 2/3 3 3
using alternating current. Mater Res Lett 2018;6:537-44. DOI
23. Wan H, Luo C, Liu C, Chang WY, Yamashita Y, Jiang X. Alternating current poling on sliver-mode
rhombohedral Pb(Mg Nb )O -PbTiO single crystals. Acta Mater 2021;208:116759. DOI
1/3 2/3 3 3
24. Xu J, Deng H, Zeng Z, et al. Piezoelectric performance enhancement of Pb(Mg Nb )O -0.25PbTiO crystals by alternating current
1/3 2/3 3 3
polarization for ultrasonic transducer. Appl Phys Lett 2018;112:182901. DOI
25. Zhuo F, Zhou X, Gao S, et al. Anisotropic dislocation-domain wall interactions in ferroelectrics. Nat Commun 2022;13:6676. DOI
PubMed PMC
26. Zhuo F, Zhou X, Gao S, et al. Intrinsic-strain engineering by dislocation imprint in bulk ferroelectrics. Phys Rev Lett
2023;131:016801. DOI
27. Zhang D, Sando D, Pan Y, Sharma P, Seidel J. Robust ferroelectric polarization retention in harsh environments through engineered
domain wall pinning. J Appl Phys 2021;129:014102. DOI
28. Zhang D, Sando D, Sharma P, et al. Superior polarization retention through engineered domain wall pinning. Nat Commun
2020;11:349. DOI PubMed PMC
29. Bai F, Li J, Viehland D. Domain hierarchy in annealed (001)-oriented Pb(Mg Nb )O -x%PbTiO single crystals. Appl Phys Lett
1⁄3 2⁄3 3 3
2004;85:2313-5. DOI
30. Rodriguez BJ, Jesse S, Morozovska AN, et al. Real space mapping of polarization dynamics and hysteresis loop formation in relaxor-
ferroelectric PbMg Nb O -PbTiO solid solutions. J Appl Phys 2010;108:042006. DOI
1/3
2/3
3
3
31. Bian JH, Xue P, Zhu R, et al. Fingerprints of relaxor ferroelectrics: characteristic hierarchical domain configurations and quantitative
performances. Appl Mater Today 2020;21:100789. DOI
32. Luo CT, Chang WY, Gao M, et al. Multi-layered domain morphology in relaxor single crystals with nano-patterned composite
electrode. Acta Mater 2020;182:10-7. DOI
33. Finkel P, Cain MG, Mion T, et al. Simultaneous large optical and piezoelectric effects induced by domain reconfiguration related to
ferroelectric phase transitions. Adv Mater 2022;34:e2106827. DOI
34. Liu HJ, Chen HJ, Liang WI, et al. Structural study in highly compressed BiFeO epitaxial thin films on YAlO . J Appl Phys
3 3
2012;112:052002. DOI
35. Christen HM, Nam JH, Kim HS, Hatt AJ, Spaldin NA. Stress-induced R-MA-MC-T symmetry changes in BiFeO films. Phys Rev B
3
2011;83:144107. DOI
36. Chen C, Chen D, Li P, et al. Deterministic manipulation of multi-state polarization switching in multiferroic thin films. Adv Funct
Mater 2023;33:2208244. DOI
37. Sharma P, Zhang Q, Sando D, et al. Nonvolatile ferroelectric domain wall memory. Sci Adv 2017;3:e1700512. DOI PubMed PMC
38. Li L, Xie L, Pan X. Real-time studies of ferroelectric domain switching: a review. Rep Prog Phys 2019;82:126502. DOI
39. Khakpash N, Khassaf H, Rossetti GA, Alpay SP. Misfit strain phase diagrams of epitaxial PMN-PT films. Appl Phys Lett
2015;106:082905. DOI