AI Article Synopsis
- High-performance piezoelectric ceramics are essential for high-temperature sensor applications, but traditional manufacturing methods have not significantly improved their performance.* -
- This study presents a breakthrough by doping CaBiNbO ceramics with gadolinium and using spark plasma sintering, resulting in CaGdBiNbO ceramics with exceptional piezoelectric properties, including a constant of 26 pC/N and a Curie temperature of 946 °C.* -
- The new CBN-3Gd ceramics displayed impressive thermal stability, with only 11.8% decrease in piezoelectric constant up to 500 °C and maintained high resistivity at elevated temperatures, indicating their potential for advanced sensor technologies.*
Article Abstract
High-performance piezoelectric ceramics with excellent thermal stability are crucial for high-temperature piezoelectric sensor applications. However, conventional fabrication processes offer limited enhancements in piezoelectric performance. In this study, we achieved a significant breakthrough in the piezoelectric performance of highly textured CaBiNbO (CBN) ceramics by incorporating rare-earth gadolinium doping and utilizing spark plasma sintering. The resulting CaGdBiNbO (CBN-3Gd) ceramics exhibited superior piezoelectric properties, with a high piezoelectric constant of 26 pC/N and a high Curie temperature of 946 °C. We employed piezoresponse force microscopy (PFM) to observe the morphology and dimensions of the ferroelectric domains, revealing a rod-shaped 3D domain configuration. This configuration facilitated polarization rotation in the textured ceramics, as analyzed using X-ray photoelectron spectroscopy (XPS) and polarization-electric field (-) hysteresis loops. Furthermore, the textured CBN-3Gd ceramics demonstrated exceptional thermal stability and reliability. The piezoelectric constant decreased by only 11.8% over a temperature range of room temperature to 500 °C, and the DC electrical resistivity remained at 6.7 × 10 Ω cm at 600 °C. This work not only highlights the great potential of textured CBN-based ceramics for high-temperature piezoelectric sensors but also provides a viable strategy for enhancing the performance of piezoelectric materials with large aspect ratio micromorphology.
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| http://dx.doi.org/10.1021/acsami.4c12933 | DOI Listing |
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