Novel, diverse and ultra-high ferroelectric, piezoelectric and dielectric performances of Mn added La2Ti2O7-based ceramics for high-temperature applications

IF 3 4区材料科学 Q3 CHEMISTRY, PHYSICAL

Solid State Ionics Pub Date : 2024-07-02 DOI:10.1016/j.ssi.2024.116637

Nawishta Jabeen , Ahmad Hussain , Altaf Ur Rahman , Iqra Faiza , Sumbul , Salah M. El-Bahy

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引用次数: 0

Abstract

In the industry of high-temperature sensors and actuators, materials capable of delivering high ferroelectric, dielectric, and specifically stable/high piezoelectric performances above 1000 °C are in demand. Hence, perovskite-like layered structured (PLS) have gained popularity due to their high Curie temperature (T_C) and ferroelectric properties, but the low piezoelectric coefficient (d₃₃) at high temperature (>1000 °C) is the problem statement to be explored and improved. Herein this research, La_1.97(LiCe)_0.03Ti₂O₇:xwt%MnO₂ (LLCTO:xMn) with x = 0–0.3 ceramic series has been explored to study the ultra-high structural, ferroelectric, electric, dielectric, and piezoelectric properties. Among all compositions, LLCTO:0.2Mn ceramic has demonstrated ultra-high performances with remnant polarization (P_r) of ∼1.84 μC/cm², piezoelectric co-efficient (d₃₃) of 9 pC/N, resistivity of ∼10¹¹ Ω.cm, relative dielectric constant (ɛ_r) of 46, and minor dielectric loss (tanδ) of 0.17 which are much improved compared to pure La₂Ti₂O₇ (LTO) and pristine La_1.97(LiCe)_0.03Ti₂O₇ (LLCTO) ceramics. The LLCTO:0.2Mn ceramic has exhibited the high T_C of 1415 °C. Moreover, thermally stable multifunctional performances are measured where LLCTO:0.2Mn ceramic has demonstrated a high d₃₃ of ∼8.5 pC/N at 1200 °C and resistivity of ∼2.4 × 10⁷ Ω.cm even at 1000 °C, which are much better than the earlier reports. From the analysis, LLCTO:0.2Mn ceramic has demonstrated the potential to be utilized in high-temperature (>1000 °C) piezoelectric devices.

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添加锰的 La2Ti2O7 基陶瓷在高温应用中的新型、多样化和超高铁电、压电和介电性能

在高温传感器和致动器行业中，需要能够在 1000 °C 以上提供高铁电、介电和特别稳定/高压电性能的材料。因此，类包晶体层状结构（PLS）因其高居里温度（TC）和铁电特性而备受青睐，但其在高温（1000 °C）下的低压电系数（d33）是有待探索和改进的问题所在。在这项研究中，探索了 x = 0-0.3 的 La1.97(LiCe)0.03Ti2O7:xwt%MnO2 (LLCTO:xMn)陶瓷系列，以研究其超高结构、铁电、电、介电和压电特性。在所有成分中，LLCTO:0.2Mn 陶瓷具有超高性能，其残余极化（Pr）为 ∼1.84 μC/cm2，压电系数（d33）为 9 pC/N，电阻率为 ∼1011 Ω.与纯 La2Ti2O7（LTO）和原始 La1.97(LiCe)0.03Ti2O7 （LLCTO）陶瓷相比，这些陶瓷的介电系数（d33）为 9 pC/N，电阻率为 ∼1011 Ω，相对介电常数（ɛr）为 46，微介电损耗（tanδ）为 0.17。LLCTO:0.2Mn 陶瓷显示出 1415 ℃ 的高 TC。此外，还测量了 LLCTO:0.2Mn 陶瓷的热稳定多功能性能，在 1200 ℃ 时，其 d33 高达 ∼8.5 pC/N，即使在 1000 ℃ 时，其电阻率也达到 ∼2.4 × 107 Ω.cm，远优于之前的报告。分析表明，LLCTO:0.2Mn 陶瓷具有用于高温（1000 °C）压电器件的潜力。

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来源期刊

Solid State Ionics 物理-物理：凝聚态物理

CiteScore

6.10

自引率

3.10%

发文量

152

审稿时长

58 days

期刊介绍： This interdisciplinary journal is devoted to the physics, chemistry and materials science of diffusion, mass transport, and reactivity of solids. The major part of each issue is devoted to articles on: (i) physics and chemistry of defects in solids; (ii) reactions in and on solids, e.g. intercalation, corrosion, oxidation, sintering; (iii) ion transport measurements, mechanisms and theory; (iv) solid state electrochemistry; (v) ionically-electronically mixed conducting solids. Related technological applications are also included, provided their characteristics are interpreted in terms of the basic solid state properties. Review papers and relevant symposium proceedings are welcome.