Phase structure analysis and pyroelectric energy harvesting performance of Ba(Hf_xTi_1‐x)O₃ ceramics

Abstract: Ba(Ti1‐xHfx)O3 ceramics were synthesized by a solid‐state reaction process. The evolution of the phase structure was identified by XRD spectrum, dielectric spectroscopy, and temperature‐dependent Raman spectroscopy for the Ba(Ti1‐xHfx)O3 ceramics. In addition, pyroelectric energy harvesting properties based on the Olsen cycle were investigated for the first time. A maximum pyroelectric energy harvesting density value of ND = 491.30 kJ/m3 (ΔT = 120°C, EH = 50 kV/cm) was achieved in the Ba(Hf0.05Ti0.95)O3 cerami… Show more

“…The potential energy harvesting based on the Olsen cycle in various BT-based ceramics is presented in Table 4. 31,71,[93][94][95] It can be seen that N D of the prepared BTSZ ceramic is comparable to those of other BT-based bulk ceramics. The normalized energy harvest per unit of temperature change N D DT as well as the normalized energy harvest per unit of electric eld change N D DE were calculated to evaluate the signicance of our ceramic in the eld of energy recovery.…”

Enhanced electrocaloric effect, energy storage density and pyroelectric response from a domain-engineered lead-free BaTi_0.91Sn_0.08Zr_0.01O₃ ferroelectric ceramic

“…The potential energy harvesting based on the Olsen cycle in various BT-based ceramics is presented in Table 4. 31,71,[93][94][95] It can be seen that N D of the prepared BTSZ ceramic is comparable to those of other BT-based bulk ceramics. The normalized energy harvest per unit of temperature change N D DT as well as the normalized energy harvest per unit of electric eld change N D DE were calculated to evaluate the signicance of our ceramic in the eld of energy recovery.…”

Enhanced electrocaloric effect, energy storage density and pyroelectric response from a domain-engineered lead-free BaTi_0.91Sn_0.08Zr_0.01O₃ ferroelectric ceramic

Oxygen vacancies-related high-temperature dielectric relaxation and pyroelectric energy harvesting in lead-free Ba(Zr0.2Ti0.8)O3 ceramics

Thermal Energy Harvesting Capabilities in Lead-Free Ba0.85Ca0.15Ti0.9−xSnxZr0.10O3 Ferroelectric Ceramics