Journal
JOURNAL OF ALLOYS AND COMPOUNDS
Volume 905, Issue -, Pages -Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.jallcom.2022.164141
Keywords
Bi-layered perovskites; Bi3TaTiO9 thin films; Ferroelectric properties; Crystallinity; Strain engineering
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Funding
- National Research Foundation of Korea (NRF) - Korea government (MSIT) [2021R1F1A104 8693, 2019R1A2C1010927]
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In this study, strain-induced ferroelectric properties of Bi3TaTiO9 (BTTO) thin films were examined as an alternate lead-free material. The BTTO thin film grown on the Rh substrate exhibited improved ferroelectric properties and has potential device applications.
Ferroelectric perovskites are favored for integrated device applications due to their high dielectric constants and strong piezoelectric responses. However, the commonly used lead zirconate titanate system has disadvantages such as toxicity, current leakage, and fatigue. As an alternate lead-free material, this study examines the strain-induced ferroelectric properties of Bi3TaTiO9 (BTTO) thin films. BTTO thin films grown on single crystal Rh and Nb-doped SrTiO3 (Nb:STO) substrates via a pulsed laser deposition were compared. The Rh substrate has induced compressive stress in the BTTO thin film, whereas the Nb:STO substrate has induced tensile stress in the BTTO thin film. The BTTO thin film grown on the Rh substrate displayed a highly a-oriented crystallinity compared with the Nb:STO substrate. Significantly, the BTTO thin film on the Rh substrate exhibited improved ferroelectric properties, such as stronger hysteretic behavior, faster polarization switching, and higher piezoelectric coefficients. The surface morphologies and ferroelectric domains of the BTTO thin films were investigated via atomic force microscopy and piezoelectric force microscopy. Our findings provide insights into strain -engineered ferroelectric thin films and their potential device applications. (C) 2022 Elsevier B.V. All rights reserved.
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