Journal of Synthetic Crystals, Volume. 49, Issue 6, 1057(2020)
Effect of Thickness of PbZr0.4Ti0.6O3 Epitaxial Film on Ferroelectric Energy Storage Performance
[1] [1] Zhang G Z, Zhu D Y, Zhang X S, et al. High-energy storage performance of (Pb0.87Ba0.1La0.02)(Zr0.68Sn0.24Ti0.08)O3 antiferroelectricceramics fabricated by the hot-press sintering method[J].J.Am.Ceram.Soc.,2015,98(4): 1175-1181.
[2] [2] Hao Y, Wang X, Bi K, et al. Significantly enhanced energy storage performance promoted by ultimate sized ferroelectric BaTiO3 fillers in nanocomposite films[J].Nano Energy,2017,31: 49-56.
[3] [3] Nguyen M D, Houwman E P, Dekker M, et al. Research update: enhanced energy storage density and energy efficiency of epitaxial Pb0.9La0.1(Zr0.52Ti0.48)O3 relaxor-ferroelectric thin-films deposited on silicon by pulsed laser deposition[J].APL Mater.,2016,4(8): 253.
[4] [4] Zhang Y, Li W, Qiao Y, et al. 0.6ST-0.4NBT thin film with low level Mn doping as a lead-free ferroelectric capacitor with high energy storage performance[J].Appl.Phys.Lett.,2018,112(9): 093902.
[5] [5] Xu R, Xu Z, Feng Y, et al. Polarization of antiferroelectric ceramics for pulse capacitors under transient electric field[J].J.Appl.Phys.,2016,119(22): 224103.
[6] [6] Wang J, Yang T, Chen S, et al. Small hysteresis and high energy storage power of antiferroelectric ceramics[J].Funct.Mater.Lett.,2014,07(1): 1350064.
[7] [7] Hao X, Zhai J, Kong L B, et al. A comprehensive review on the progress of lead zirconate-based antiferroelectric materials. prog[J].Mater.Sci.,2014,63(8): 1-57.
[8] [8] Tsuchiya T, Yamaguchi I, Manabe T, et al. Effect of substrates on epitaxial PZT films by a coating photolysis process[J].Mater.Sci.Semicond.Process.,2002,5(2-3): 207-210.
[9] [9] Zhang Y J, Wang Z J, Bai Y, et al. Enhanced electrical properties of epitaxial PZT films deposited by sol-gel method and crystallized by microwave irradiation[J].J.Alloys.Compd.,2018,757: 24-30.
[10] [10] Li L, Liao Z L, Gauquelin N, et al. Epitaxial stress-free growth of high crystallinity ferroelectric PbZr0.52Ti0.48O3 on GaN/AlGaN/Si(111) substrate[J].Adv.Mater.Faces.,2018,5(2): 1700921-1700928.
[11] [11] Lee K S, Kang Y M, Baik S. Determination of domain structure and abundance of epitaxial Pb(Zr, Ti)O3 thin films grown on MgO(001) by rf magnetron sputtering[J].J.Mater.Res.,1999,14(1): 132-141.
[12] [12] Zhu M, Du Z, Jing L, et al. Optical and electro-optic anisotropy of epitaxial PZT thin films[J].Appl.Phys.Lett.,2015,107(3): 031907.
[13] [13] Vilquin B, Bouregba R, Poullain G, et al. Crystallographic and optical properties of epitaxial Pb(Zr0.6, Ti0.4)O3 thin films grown on LaAlO3 substrates[J].J.Appl.Phys.,2003,94(8): 5167-5171.
[14] [14] Grishin A M, Khartsev S I, Johnsson P. Epitaxial ferroelectric/giant magnetoresistive heterostructures for magnetosensitive memory cell[J].Appl.Phys.Lett.,1999,74(7): 1015.
[15] [15] Chu M W, Szafraniak I, Scholz R, et al. Impact of misfit dislocations on the polarization instability of epitaxial nanostructured ferroelectric perovskites[J].Nat.Mater.,2004,3(2): 87-90.
[17] [17] Alpay S P, Misirlioglu B, Nagarajan V, et al. Can interface dislocations degrade ferroelectric properties?[J].Appl.Phys.Lett.,2004,85(11): 2044-2046.
[18] [18] Kanno I, Yokayama Y, Kotera H, et al. Thermodynamic study of c-axis-oriented epitaxial Pb(Zr,Ti)O3 thin films[J].Phys.Rev.B.,2004,69: 064103.
[19] [19] Chu M W, Szafraniak I, Hesse D, et al. Elastic coupling between 90° twin walls and interfacial dislocations in epitaxial ferroelectric perovskites: A quantitative high-resolution transmission electron microscopy study[J].Phys.Rev.B.,2005(72): 174112.
[20] [20] Huang H T, Sun C Q, Hing P. Surface bond contraction and its effect on the nanometricsized lead zirconatetitanate[J].J.Phy-Condens.Mat.,2000(12): 127-132.
[21] [21] Alpay S P, Misirlioglu I B, Sharma A, et al. Structural characteristics of ferroelectric phase transformations in single-domain epitaxial films[J].J.Appl.Phys.,2004(95): 8118-8123.
Get Citation
Copy Citation Text
DONG Lei, ZHAO Lei, SONG Jianmin. Effect of Thickness of PbZr0.4Ti0.6O3 Epitaxial Film on Ferroelectric Energy Storage Performance[J]. Journal of Synthetic Crystals, 2020, 49(6): 1057