Large conventional and inverse electrocaloric effects in PbMg0.5W0.5O3 multilayer capacitors above and below the Néel temperature

IF 7 3区 材料科学 Q1 ENERGY & FUELS Journal of Physics-Energy Pub Date : 2023-06-07 DOI:10.1088/2515-7655/acdc53
S. Hirose, T. Usui, T. Hiroto, B. Nair, X. Moya, N. Mathur
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Abstract

Bulk PbMg0.5W0.5O3 (PMW) is an antiferroelectric in which an electric field of 12 V μm−1 is sufficient to initiate a nominally reversible transition to a dipole-aligned (ferroelectric) phase if operating just below the Néel temperature T N, near room temperature (Li et al 2021 Adv. Funct. Mater. 31 2101176). Here we describe multilayer capacitors (MLCs) of PMW that permit 27 V µm−1 to be applied without breakdown. Below T N, nominally reversible driving of the partial (full) antiferroelectric–ferroelectric (AF–FE) transition over a wide (narrow) range of temperatures yields large inverse electrocaloric (EC) effects that peak at ΔTj ∼ –2.6 K when applying 25 V μm−1 at 293 K (ΔTj denotes directly measured temperature jumps). Above T N, nominally reversible driving of the partial (full) paraelectric–ferroelectric (PE–FE) transition yields large conventional EC effects that peak at ΔTj ∼ +5.2 K when applying 25 V μm−1 at 302 K. This good EC performance near room temperature implies that MLCs of PMW could be exploited in prototype EC coolers.
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PbMg0.5W0.5O3多层电容器在nsamel温度上下存在较大的常规和反热效应
体PbMg0.5W0.5O3(PMW)是一种反铁电体,其中如果在接近室温的Néel温度T N以下操作,12 Vμm−1的电场足以启动向偶极排列(铁电)相的名义可逆转变(Li等人2021 Adv.Funct.Mater.31 2101176)。在这里,我们描述了PMW的多层电容器(MLC),它允许在不击穿的情况下应用27 Vµm−1。在T N以下,在宽(窄)温度范围内部分(完全)反铁电-铁电(AF–FE)跃迁的名义可逆驱动产生了大的反向电热(EC)效应,当在293 K下施加25 Vμm−1时,该效应在ΔTj~–2.6 K处达到峰值(ΔTj表示直接测量的温度跳跃)。在T N以上,部分(完全)顺电-铁电(PE–FE)跃迁的名义可逆驱动产生了大的传统EC效应,当在302 K下施加25 Vμm−1时,该效应在ΔTj~+5.2 K处达到峰值。这种接近室温的良好EC性能意味着PMW的MLC可以用于原型EC冷却器。
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来源期刊
CiteScore
10.90
自引率
1.40%
发文量
58
期刊介绍: The Journal of Physics-Energy is an interdisciplinary and fully open-access publication dedicated to setting the agenda for the identification and dissemination of the most exciting and significant advancements in all realms of energy-related research. Committed to the principles of open science, JPhys Energy is designed to maximize the exchange of knowledge between both established and emerging communities, thereby fostering a collaborative and inclusive environment for the advancement of energy research.
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