Exploring the Pb1−xSrxHfO3 System and Potential for High Capacitive Energy Storage Density and Efficiency
Advanced materials(2021)
摘要
The hafnate perovskites PbHfO3 (antiferroelectric) and SrHfO3 ("potential" ferroelectric) are studied as epitaxial thin films on SrTiO3 (001) substrates with the added opportunity of observing a morphotropic phase boundary (MPB) in the Pb1-xSrxHfO3 system. The resulting (240)-oriented PbHfO3 (Pba2) films exhibited antiferroelectric switching with a saturation polarization approximate to 53 mu C cm(-2) at 1.6 MV cm(-1), weak-field dielectric constant approximate to 186 at 298 K, and an antiferroelectric-to-paraelectric phase transition at approximate to 518 K. (002)-oriented SrHfO3 films exhibited neither ferroelectric behavior nor evidence of a polar P4mm phase . Instead, the SrHfO3 films exhibited a weak-field dielectric constant approximate to 25 at 298 K and no signs of a structural transition to a polar phase as a function of temperature (77-623 K) and electric field (-3 to 3 MV cm(-1)). While the lack of ferroelectric order in SrHfO3 removes the potential for MPB, structural and property evolution of the Pb1-xSrxHfO3 (0 <= x < 1) system is explored. Strontium alloying increased the electric-breakdown strength (E-B) and decreased hysteresis loss, thus enhancing the capacitive energy storage density (U-r) and efficiency (eta). The composition, Pb0.5Sr0.5HfO3 produced the best combination of E-B = 5.12 +/- 0.5 MV cm(-1), U-r = 77 +/- 5 J cm(-3), and eta = 97 +/- 2%, well out-performing PbHfO3 and other antiferroelectric oxides.
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关键词
antiferroelectrics,dielectrics,energy storage,hafnate,pulsed-laser deposition
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