Enhanced pyroelectric and piezoelectric properties of PZT with aligned porosity for energy harvesting applications
Yan Zhang, Mengying Xie, James Roscow, Yinxiang Bao, Kechao Zhou, Dou, Zhang, Chris R. Bowen

TL;DR
This study develops aligned porous PZT ceramics via freeze casting, demonstrating significantly enhanced piezoelectric and pyroelectric energy harvesting performance compared to dense PZT, with potential applications in energy harvesting devices.
Contribution
The paper introduces a method to produce aligned porous PZT ceramics with improved energy harvesting properties, validated by experimental results and analytical models.
Findings
Aligned porous PZT exhibits higher energy harvesting figures of merit.
Maximum energy density of 1653 μJ/cm³ achieved with 60 vol.% porosity.
Porous PZT outperforms dense PZT by 374% in energy density.
Abstract
This paper demonstrates the significant benefits of exploiting highly aligned porosity in piezoelectric and pyroelectric materials for improved energy harvesting performance. Porous lead zirconate (PZT) ceramics with aligned pore channels and varying fractions of porosity were manufactured in a water-based suspension using freeze casting. The aligned porous PZT ceramics were characterized in detail for both piezoelectric and pyroelectric properties and their energy harvesting performance figures of merit were assessed parallel and perpendicular to the freezing direction. As a result of the introduction of porosity into the ceramic microstrucutre, high piezoelectric and pyroelectric harvesting figures of merits were achieved for porous freeze-cast PZT compared to dense PZT due to the reduced permittivity and volume specific heat capacity. Experimental results were compared to parallel…
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