The coexistence of several structural instabilities in Zr-rich Pb(Zr,Ti)O3 leads to the possibility of condensingthem successively to trigger a sequence of phase transitions, instead of reaching directly the AFE phase, as in purePbZrO3. This is especially noticeable in compositions near the antiferroelectric morphotropic phase boundaryand the tricritical point around room temperature, as PZT 95/5, where three phases are energetically available.To check the thermal development of these different phases, differential scanning calorimetry, dielectric spectroscopyand Raman scattering experiments were carried on antiferroelectric morphotropic-adjacent ceramicsPZT 96/4 and 95/5. They revealed a complicated and hysteretic thermal behaviour due to the complexmicrostructure and the coexistence of regions with different phases within the samples. On heating and coolingthe ceramics show two intermediate polar phases between the cubic paraelectric and the low temperatureantiferroelectric phase, which are attained under different experimental conditions and specific pre-history. Ourresults suggest that ceramics with composition near PZT 95/5 are potential materials for novel room temperaturedevice applications. An innovative approach of phase-control is proposed, based on the thermal behaviour of theintermediate polar states observed and using small temperature gradients by appropriate heating-cooling cycles.
Peculiar dynamics of polar states at the morphotropic phase boundary of antiferroelectric Pb(Zr1-xTix)O3
Floriana Craciun;Francesco Cordero;Carmen Galassi
2023
Abstract
The coexistence of several structural instabilities in Zr-rich Pb(Zr,Ti)O3 leads to the possibility of condensingthem successively to trigger a sequence of phase transitions, instead of reaching directly the AFE phase, as in purePbZrO3. This is especially noticeable in compositions near the antiferroelectric morphotropic phase boundaryand the tricritical point around room temperature, as PZT 95/5, where three phases are energetically available.To check the thermal development of these different phases, differential scanning calorimetry, dielectric spectroscopyand Raman scattering experiments were carried on antiferroelectric morphotropic-adjacent ceramicsPZT 96/4 and 95/5. They revealed a complicated and hysteretic thermal behaviour due to the complexmicrostructure and the coexistence of regions with different phases within the samples. On heating and coolingthe ceramics show two intermediate polar phases between the cubic paraelectric and the low temperatureantiferroelectric phase, which are attained under different experimental conditions and specific pre-history. Ourresults suggest that ceramics with composition near PZT 95/5 are potential materials for novel room temperaturedevice applications. An innovative approach of phase-control is proposed, based on the thermal behaviour of theintermediate polar states observed and using small temperature gradients by appropriate heating-cooling cycles.File | Dimensione | Formato | |
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