Thermally Stable Capacitive Energy-Density and Colossal Electrocaloric and Pyroelectric Effects of Sm-Doped Pb(Mg_1/3Nb_2/3)O₃-PbTiO₃ Thin Films.

IF 14.4 1区化学 Q1 CHEMISTRY, MULTIDISCIPLINARY Journal of the American Chemical Society Pub Date : 2024-11-18 DOI:10.1021/jacs.4c11555

Zouhair Hanani, Jamal Belhadi, Urška Trstenjak, Nick A Shepelin, Vid Bobnar, Hana Uršič, Nina Daneu, Nikola Novak, David Fabijan, Anna Razumnaya, Yuri Tikhonov, Thomas Lippert, Zdravko Kutnjak, Gertjan Koster, Igor Lukyanchuk, Matjaž Spreitzer

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Abstract

Sm-doped Pb(Mg_1/3Nb_2/3)O₃-PbTiO₃ (Sm-PMN-PT) bulk materials have revealed outstanding ferroelectric and piezoelectric properties due to enhanced local structural heterogeneity. In this study, we further explore the potential of Sm-PMN-PT by fabricating epitaxial thin films by pulsed laser deposition, revealing that Sm doping significantly improves the capacitive energy-storage, piezoelectric, electrocaloric, and pyroelectric properties of PMN-PT thin films. These Sm-PMN-PT thin films exhibit fatigue-free performance up to 10⁹ charge-discharge cycles and maintain thermal stability across a wide temperature range from -40 to 200 °C. Notably, the films demonstrate a colossal electrocaloric effect with a temperature change of 59.4 K and a remarkable pyroelectric energy density reaching 40 J cm^-3. By using scanning transmission electron microscopy and phase-field modeling, we revealed that these exceptional properties arise from the increased local structural heterogeneity and strong local electric fields along spontaneous polarization directions, facilitating the nucleation of polymorphic nanodomains characterized by a slush-like polar structure. These findings highlight the enormous potential of Sm-PMN-PT films in capacitive energy storage and solid-state electrothermal energy interconversion. Furthermore, this approach holds broad potential for other relaxor ferroelectrics by enabling the manipulation of nanodomain structures, paving the way for developing robust multifunctional materials.

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掺杂 Sm 的 Pb（Mg1/3Nb2/3）O3-PbTiO3 薄膜的热稳定电容能量密度以及巨大的电致发光和热释电效应。

由于局部结构异质性的增强，掺杂 Sm 的 Pb（Mg1/3Nb2/3）O3-PbTiO3（Sm-PMN-PT）块状材料显示出卓越的铁电和压电特性。在本研究中，我们通过脉冲激光沉积法制造外延薄膜，进一步探索了 Sm-PMN-PT 的潜力，发现 Sm 掺杂能显著改善 PMN-PT 薄膜的电容储能、压电、电致冷和热释电特性。这些 Sm-PMN-PT 薄膜在 109 次充放电循环中表现出无疲劳性能，并在 -40 至 200 °C 的宽温度范围内保持热稳定性。值得注意的是，这些薄膜具有巨大的电致发光效应，温度变化达 59.4 K，热释电能量密度高达 40 J cm-3。通过使用扫描透射电子显微镜和相场建模，我们揭示了这些非凡的特性源于沿自发极化方向增加的局部结构异质性和强局部电场，从而促进了以泥浆状极性结构为特征的多晶态纳米域的成核。这些发现凸显了 Sm-PMN-PT 薄膜在电容储能和固态电热能量相互转换方面的巨大潜力。此外，这种方法通过操纵纳米域结构，为其他弛豫铁电体带来了广阔的潜力，为开发坚固耐用的多功能材料铺平了道路。

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来源期刊

Journal of the American Chemical Society 化学-化学综合

CiteScore

24.40

自引率

6.00%

发文量

2398

审稿时长

1.6 months

期刊介绍： The flagship journal of the American Chemical Society, known as the Journal of the American Chemical Society (JACS), has been a prestigious publication since its establishment in 1879. It holds a preeminent position in the field of chemistry and related interdisciplinary sciences. JACS is committed to disseminating cutting-edge research papers, covering a wide range of topics, and encompasses approximately 19,000 pages of Articles, Communications, and Perspectives annually. With a weekly publication frequency, JACS plays a vital role in advancing the field of chemistry by providing essential research.