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Article Dans Une Revue APL Materials Année : 2024

Comparative performance of fluorite-structured materials for nanosupercapacitor applications

Grégoire Magagnin
Martine Le Berre
Sara Gonzalez
Damien Deleruyelle
Bertrand Vilquin

Résumé

Over the last fifteen years, ferroelectric (FE) and antiferroelectric (AFE) ultra-thin films based on fluorite-structured materials have drawn significant attention for a wide variety of applications requiring high integration density. AFE ZrO$_2$, in particular, holds significant promise for nanosupercapacitors, owing to its potential for high energy storage density (ESD) and high efficiency (η). This work assesses the potential of high-performance Hf$_{1−x}$Zr$_x$O$_2$ thin films encapsulated by TiN electrodes that show linear dielectric (LD), FE, and AFE behavior. A wake-up effect is observed for AFE ZrO$_2$, a phenomenon barely reported for pure zirconium oxide and AFE materials in general, correlated with the disappearance of the pinched hysteresis loop commonly observed for Zr-doped HfO$_2$ thin films. ESD and η are compared for FE, AFE, and LD samples at the same electrical field (3.5 MV/cm). As expected, ESD is higher for the FE sample (95 J/cm$^3$), but η is ridiculously small (≈55%) because of the opening of the FE hysteresis curve, inducing high loss. Conversely, LD samples exhibit the highest efficiency (nearly 100%), at the expense of a lower ESD. AFE ZrO$_2$ thin film strikes a balance between FE and LD behavior, showing reduced losses compared to the FE sample but an ESD as high as 52 J/cm$^3$ at 3.5 MV/cm. This value can be further increased up to 84 J/cm$^3$ at a higher electrical field (4.0 MV/cm), with an η of 75%, among the highest values reported for fluorite-structured materials, offering promising perspectives for future optimization.
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Dates et versions

hal-04662425 , version 1 (25-07-2024)

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Grégoire Magagnin, Jordan Bouaziz, Martine Le Berre, Sara Gonzalez, Damien Deleruyelle, et al.. Comparative performance of fluorite-structured materials for nanosupercapacitor applications. APL Materials, 2024, 12 (7), pp.071124. ⟨10.1063/5.0220110⟩. ⟨hal-04662425⟩
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