Enhanced energy storage properties of hafnium-modified (0.7Ba_0.55Sr_0.45–0.3Bi_0.5Na_0.5)TiO₃-based relaxor ferroelectric ceramics via regulating polarization nonlinearity and bandgap

Abstract: Achieving high energy storage density (ESD), energy storage efficiency (η) and exceptional stability is deemed as the foremost challenge for the application of lead-free dielectric energy storage materials. Relaxor ferroelectrics...

“…Raman spectroscopy is a measurement to catch part of the phonon modes by frequency shift. In the range of 0 to 900 cm –1 , four regions can be found in Raman spectra under room temperature, similar to those previously reported BaTiO 3 in solid solution. , 0–200 cm –1 and 200–400 cm –1 bands represent the short wave of ionic Ba–O and Ti–O bond vibration, while 400–600 cm –1 and >600 cm –1 are the vibration modes of [TiO 6 ] octahedron chains and long-range lattice, as shown in Figure (a). ,, By comparing major Raman peaks at the different bands in Figure (a), also demonstrated in Figure (b), it is found peak 3 obviously shifts to the higher frequency (wavenumber). By comparing the phonon (one mode of lattice vibration) to a spring motion, because they all share a similar sinusoidal harmonic motion, the enhanced vibration frequency corresponds to a resilience force in Ti–O ionic vibration; in other words, a tightened phonon (just a like tightened spring) emerges with the increased ferroelectric polarization P .…”

“…FORC measurement was also performed by the modified P – E loop at 2 V um –1 , which featured a repetitive triangle/sinusoidal input wave from negative maximum electric field. A two-dimensional density distribution function n R ( x , y ) was calculated by data points extracted from the FORC output P – E curve, − as shown in Figure S1, intending to illustrate the density of the minimum unit of reversible dipoles featuring coercive fields x and y . Depolarization Δ P was integrated by the discharged current in TSDC (temperature stimulus depolarization current) measurement in a heated chamber in the broadband dielectric impedance Alpha spectrometer (Novocontrol Technologies, Montabaur, Germany). , …”

“…BaTiO 3 ferroelectric ceramics were fabricated by solid state reaction, which frequently occurred in related works. − In this work, raw material was selected as BaCO 3 (99.38%) and TiO 2 (99.21%) were weighed accurately and mixed by ball-milling for 6 h. The solid-state synthesis was performed at 1273 K for 3 h, and the resulting blocks were crushed and further ball milled for 6 h. Then, the poly­(vinyl alcohol) (PVA) was chosen as binder and mixed with powders to granulate. After the debinding (873 K for 4 h) and forming process, ceramic sintering was performed at 1573 K for 2 h.…”

Ferroelectric Polarization Modulated Thermal Conductivity in Barium Titanate Ceramic

“…Raman spectroscopy is a measurement to catch part of the phonon modes by frequency shift. In the range of 0 to 900 cm –1 , four regions can be found in Raman spectra under room temperature, similar to those previously reported BaTiO 3 in solid solution. , 0–200 cm –1 and 200–400 cm –1 bands represent the short wave of ionic Ba–O and Ti–O bond vibration, while 400–600 cm –1 and >600 cm –1 are the vibration modes of [TiO 6 ] octahedron chains and long-range lattice, as shown in Figure (a). ,, By comparing major Raman peaks at the different bands in Figure (a), also demonstrated in Figure (b), it is found peak 3 obviously shifts to the higher frequency (wavenumber). By comparing the phonon (one mode of lattice vibration) to a spring motion, because they all share a similar sinusoidal harmonic motion, the enhanced vibration frequency corresponds to a resilience force in Ti–O ionic vibration; in other words, a tightened phonon (just a like tightened spring) emerges with the increased ferroelectric polarization P .…”

“…FORC measurement was also performed by the modified P – E loop at 2 V um –1 , which featured a repetitive triangle/sinusoidal input wave from negative maximum electric field. A two-dimensional density distribution function n R ( x , y ) was calculated by data points extracted from the FORC output P – E curve, − as shown in Figure S1, intending to illustrate the density of the minimum unit of reversible dipoles featuring coercive fields x and y . Depolarization Δ P was integrated by the discharged current in TSDC (temperature stimulus depolarization current) measurement in a heated chamber in the broadband dielectric impedance Alpha spectrometer (Novocontrol Technologies, Montabaur, Germany). , …”

“…BaTiO 3 ferroelectric ceramics were fabricated by solid state reaction, which frequently occurred in related works. − In this work, raw material was selected as BaCO 3 (99.38%) and TiO 2 (99.21%) were weighed accurately and mixed by ball-milling for 6 h. The solid-state synthesis was performed at 1273 K for 3 h, and the resulting blocks were crushed and further ball milled for 6 h. Then, the poly­(vinyl alcohol) (PVA) was chosen as binder and mixed with powders to granulate. After the debinding (873 K for 4 h) and forming process, ceramic sintering was performed at 1573 K for 2 h.…”

Ferroelectric Polarization Modulated Thermal Conductivity in Barium Titanate Ceramic

“…Notably, the collected experimental data and calculated line perfectly matched, confirming the coexistence of the CT main-phase and NN secondary-phase in CT-0.4NN ceramic. To further gain insights into the dominant RFE feature, 63,64 FORC distribution is investigated, as given in Fig. 5(b) derived from a series of asymmetric P – E loops (Fig.…”

Giant comprehensive capacitive energy storage in lead-free quasi-linear relaxor ferroelectrics via local heterogeneous polarization configuration

“…Although it may seem counterintuitive that compositions with chemical inhomogeneity are electrically homogeneous, these observation are consistent with other BF-based ceramics [25,[27][28][29][30][31][32]34,35] that have been used to form high E pulse (1 MV cm − 1 ) prototype MLCCs. Apart from BF-based ceramics, achieving electrical homogeneity also enhances W dis in other lead-free systems, such as BT- [70] and NBT-based [23,71] bulk ceramics.…”

High discharge energy density in novel K1/2Bi1/2TiO3-BiFeO3 based relaxor ferroelectrics