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Communication Dans Un Congrès Année : 2021

Effect of bottom electrodes on HZO thin film properties

Ingrid Cañero Infante
Pedro Rojo Romeo
Nicolas Baboux
D. Deleruyelle
Rabei Barhoumi
  • Fonction : Auteur

Résumé

The discovery of memristor, theorized in 1971 by L. Chua, has led to the development of novel artificial neuromorphic concepts and devices, including ferroelectric-based ones. Ferroelectric Tunnel Junction (FTJ) type memristors based on zirconium-doped hafnium oxide, Hf_0.5 Zr_0.5 O_2 (HZO) have recently displayed to have synaptic learning capabilities [1]. In addition, HZO processes are already fully compatible with silicon CMOS industry with oxide layers thinner than 10 nm. In the present work, the HZO layer is realized by room temperature magnetron sputtering of a Hf_0.5 Zr_0.5 O_2 ceramic target and subsequently crystallized by rapid thermal annealing [2]. Using different bottom electrode (germanium, titanium nitride, platinum) layers grown on silicon and different substrates (n-doped silicon, n-doped germanium), we studied the effect on the stabilized crystalline phase and microstructure (Fig), band structure alignment and electrical properties of thin HZO films. Furthermore, we explored the effect of ultra-thin buffer layers between the electrodes and the HZO layer, including their material, insertion position and thickness. We exploited X-ray photoemission spectroscopy to analyze the chemistry and the electronic state of the electrodes/HZO interface. X-ray reflectometry and grazing incidence X-ray diffraction (GIXRD) were used to probe the thickness and structural characteristics of the HZO layer, whose ferroelectricity is associated to the polar orthorhombic phase. We will discuss our results in the framework of structural, chemical and physical properties of the different electrode/ferroelectric interfaces and their effect on the electrical properties of thin HZO-based junctions. References: [1] L. Chen et al. Nanoscale, vol. 10, no. 33, pp. 15826–15833, 2018. [2] J Bouaziz, et al., ACS Applied Electronic Materials 1 (9), 1740-1745, 2019.
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Dates et versions

hal-03274229 , version 1 (29-06-2021)

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  • HAL Id : hal-03274229 , version 1

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Bertrand Vilquin, Greta Segantini, Benoit Manchon, Ingrid Cañero Infante, Pedro Rojo Romeo, et al.. Effect of bottom electrodes on HZO thin film properties. International Symposium on Applications of Ferroelectrics (ISAF) 2021, https://isaf-isif-pfm2021.org/, May 2021, Sydney, Australia. ⟨hal-03274229⟩
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