Vu Thu Hien scite author profile

(Ba0.85Sr0.15)(Ti0.9Zr0.1)O3 (BSZT) lead-free ferroelectric thin films at the vicinity of the morphotropic phase boundary (MPB) were successfully deposited on Pt/Ti/SiO2/Si using a modified spin-coated sol-gel method. Microstructure and electrical properties of the thin film were studied. High resolution synchrotron X–ray powder diffraction (SXRD) combinied with Rietveld refinement revealed the samples crystalize in tetragonal perovskite structure with in-plane symmetry (c < a). Raman spectra also confirmed a tetragonal perovskite crystalline lattice structure. Polarisation studies demonstrate that BSZT films exhibit a rather high saturation polarisation of 22.25 µC cm−2. Leakage current behaviour was obtained and possible conduction mechanism is discussed.

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Microstructure and Electrical Properties of Low-temperature Solution-processed Sol-gel KNN Thin Films

Hien

Phương²

2020

MaP

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We report on an environmentally friendly and versatile chemical solution deposition route to K0.5Na0.5NbO3 (KNN) thin films. The excess amounts of K and Na in KNN precursor solutions was found to be strong influence on perovskite KNN single-phase thin films. It was revealed from Raman spectroscopic analysis data that a change in scattering mode was observed for the KNN thin films fabricated under various processing conditions. This change was due to the chemical composition fluctuation of K and Na in the KNN thin films during heat treatment. The leakage current and ferroelectric properties of the thin films were strongly affected by the excess amounts of K and Na as well. KNN thin films with 20 mol% excess K and Na exhibited a leaky ferroelectric polarization–electric field (P–E) hysteresis. Leakage current density of the film was 3.85´10-8 A/cm2 at applied field of -60 kV/cm.

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Vu Thu Hien

Synthesis and characterisations of sol-gel-derived LaNiO<SUB align="right">3 thin-film electrodes on Si substrates

Preparation and Microstructure of acetate-based lead-free BSZT ferrolectric thin films using sol-gel technique

Microstructure and Electrical Properties of Low-temperature Solution-processed Sol-gel KNN Thin Films

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