Enhanced energy storage properties and excellent fatigue resistance of Pb-free Bi0.47Na0.376K0.094Ba0.06Nb0.024Ti0.97-x(Ta0.24Sn0.7)(x)O-3 relaxor ceramics

Authors
Yadav, Arun KumarYoo, Il-RyeolChoi, Seong-HuiPark, Je-YeonSong, Hyun-CheolCho, Kyung-Hoon
Issue Date
2022-11
Publisher
Elsevier BV
Citation
Journal of Alloys and Compounds, v.923
Abstract
Pb-free Bi0.47Na0.376K0.094Ba0.06Nb0.024Ti0.97-x(Ta0.24Sn0.7)(x)O-3 perovskite ceramics were prepared using a mixed-oxide reaction technique, and their structural, dielectric, ferroelectric, and energy storage properties were systematically investigated. All the compositions exhibited a pseudo-cubic perovskite crystal structure with a highly dense morphology. The doping of complex ions (Ta0.24Sn0.7)(4+) disturbed the long-range ordering, which reduced the ferroelectric-to-relaxor phase transition temperature to room temperature. Hence, the modified ceramics exhibited relaxor behavior in their polarization and current density versus applied field plots. Owing to the excellent field-induced ferroelectricity and facile reversibility of ferroelectric-relaxor phase transition of polar nanoregions (PNRs), a high recoverable energy density of 1.65 J/cm(3) with a good efficiency of 77.69% was achieved under 125 kV/cm at x = 0.03. In addition, the ceramic with x = 0.03 showed a high recoverable energy density of 1.01 J/cm(3) with a high conversion efficiency of 84.22% at 70 degrees C under 80 kV/cm and fatigue-free characteristics during 10(5) cycles, demonstrating the highly dynamic and very stable nature of PNRs and very few ionic defects in the grains. Therefore, such ceramics (x = 0.03) are expected to be suitable for high-energy-density materials in electronic industries. (C) 2022 Published by Elsevier B.V.
Keywords
STABLE DIELECTRIC-PROPERTIES; ELECTRICAL-PROPERTIES; BREAKDOWN STRENGTH; DENSITY; STRAIN; PERFORMANCE; EFFICIENCY; STABILITY; Dielectric; Fatigue resistance; Phase transition; Bi0.5Na0.5TiO3-based ceramics; Energy density
ISSN
0925-8388
URI
https://pubs.kist.re.kr/handle/201004/114431
DOI
10.1016/j.jallcom.2022.166324
Appears in Collections:
KIST Article > 2022
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