Tunability Investigation in the BaTiO3-CaTiO3-BaZrO3 Phase Diagram Using a Refined Combinatorial Thin Film Approach

Lead-free materials based on the (Ba,Ca)(Zr,Ti)O 3 (BCZT) system exhibit excellent electromechanical properties that can be strongly modified by small amounts of dopants. Here, we use a combinatorial strategy to unravel the influence of aliovalent doping with Ce on dielectric and piezoelectric properties of BCTZ. We synthesize and characterize a single BCTZ thin film with a composition gradient from undoped to 0.2 mol % cerium doping. The cerium doping increases the piezoelectric coefficient from 42.3 ± 2.9 pm V −1 (undoped) to 63.0 ± 2.4 pm V −1 for 0.06 Ce-mol %, and then decreases to 38.4 ± 1.3 pm V −1 for the maximum amount of cerium (0.2 mol %). An investigation of subcoercive field nonlinearities reveals that these variations are not only induced by changes in dynamics and densities of domain walls. The results highlight the advantage of combinatorial techniques to identify ideal compositions for applications without synthesizing a high number of samples with unavoidable sample-to-sample variations.

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Improved methods for design of PLD and combinatorial PLD films

Lysne

Brakstad

Kildemo

et al. 2022

Journal of Applied Physics

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Pulsed laser deposition (PLD) is a powerful technique for prototyping thin film materials, both single component (single composition) films and films with a varying composition (e.g., lateral continuous compositional spread, CCS). In this work, we improve one of the simulation methods used to design the deposition of PLD films: We extend the mathematical model for the material spread on the substrate, [Formula: see text], for each laser pulse hitting the target, and we use a more accurate method to determine [Formula: see text] experimentally. The deposition of the material on the substrate is simulated by repetitively adding [Formula: see text], from one or more targets, at the selected location on the substrate. Using the new model, a high agreement between the simulated and grown films’ thickness and composition across the substrate was obtained. The basis for the high agreement is the use of variable angle spectroscopic ellipsometry to carefully determine [Formula: see text] by measuring at 794 locations on the 50.8 mm (2 in.) diameter substrates. Factors, such as variation in optical properties and porosity across the plume/calibration films, were considered in the determination of the thicknesses. As test cases, we simulated and deposited (single component) [Formula: see text] thin films and (CCS) [Formula: see text] films doped with Cr and N, deposited on 50.8 mm diameter Si wafers. The modeling and simulations are implemented in an open-source Python library, pyPLD.

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Tunability Investigation in the BaTiO3-CaTiO3-BaZrO3 Phase Diagram Using a Refined Combinatorial Thin Film Approach

Cited by 3 publications

References 30 publications

Thickness dependence of microwave dielectric tunability in Ba0·5Sr0·5TiO3 thin films deposited by pulsed laser deposition

Thickness dependence of microwave dielectric tunability in Ba0·5Sr0·5TiO3 thin films deposited by pulsed laser deposition

Enhancement of Piezoelectric Properties in a Narrow Cerium Doping Range of Ba_1–xCa_xTi_1–yZr_yO₃ Evidenced by Combinatorial Experiment

Improved methods for design of PLD and combinatorial PLD films

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Tunability Investigation in the BaTiO3-CaTiO3-BaZrO3 Phase Diagram Using a Refined Combinatorial Thin Film Approach

Cited by 3 publications

References 30 publications

Thickness dependence of microwave dielectric tunability in Ba0·5Sr0·5TiO3 thin films deposited by pulsed laser deposition

Thickness dependence of microwave dielectric tunability in Ba0·5Sr0·5TiO3 thin films deposited by pulsed laser deposition

Enhancement of Piezoelectric Properties in a Narrow Cerium Doping Range of Ba1–xCaxTi1–yZryO3 Evidenced by Combinatorial Experiment

Improved methods for design of PLD and combinatorial PLD films

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Enhancement of Piezoelectric Properties in a Narrow Cerium Doping Range of Ba_1–xCa_xTi_1–yZr_yO₃ Evidenced by Combinatorial Experiment