A novel route to perovskite lead zirconate titanate from glycolate precursors via the sol–gel process

Abstract: A perovskite lead zirconate titanate was synthesized by the sol-gel process, using lead glycolate, sodium tris(glycozirconate) and titanium glycolate as the starting precursors. • C; it transformed to the tetragonal and the cubic forms of the perovskite phase on calcination above the Curie temperature, as verified by X-ray data. The lead zirconate titanate synthesized and calcined at 400• C for 1 h had the highest dielectric constant, the highest electrical conductivity and the dielectric loss tangent of 10 19… Show more

“…The suspensions were homogeneously mixed by using a magnetic stirrer at room temperature for 24 h. [10][11][12] as shown in Fig. 3(b); it is irregular in shape.…”

Lead zirconate (PbZrO₃) embedded in natural rubber as electroactive elastomer composites

“…The suspensions were homogeneously mixed by using a magnetic stirrer at room temperature for 24 h. [10][11][12] as shown in Fig. 3(b); it is irregular in shape.…”

Lead zirconate (PbZrO₃) embedded in natural rubber as electroactive elastomer composites

“…The FTIR spectra show a peak at 2829 cm −1 (νC-H); 1086 and 1042 cm −1 (νC-O-Pb bond); and, 573 cm −1 (νPb-O bond). 13 Lead titanate [10,11] The lead glycolate and titanium glycolate were synthesized by the OOPS process, [7 -9] whose products are less moisture-sensitive than typical metal alkoxides and the stoichiometry is easy to control. The lead titanate sol was prepared by mixing lead glycolate in a 0.1 M nitric solution (HNO 3 ) with titanium glycolate to form lead titanate glycolate with a mole ratio of Pb : Ti (PT) of 1 : 1.…”

“…This approach offers considerable potential for processing lead titanate materials. [10,11] A synthesis advantage of the oxide one-pot synthesis is the moisture-stable metal alkoxides and inexpensive starting materials. OOPS permits the low-temperature synthesis of alkaline and alkaline glycolate precursors of any stoichiometry including perovskite (ABO 3 ) structure.…”

“…[2 -7] From previous studies, [8 -11] the sol-gel process appears to be the mildest method for producing lead titanate, PbTiO 3 , ABO 3 (perovskite) structures from lead and titanium alkoxide precursors, although these precursors are moisture-sensitive. [10,11] Ferroelectrics with various connectivity patterns, such as (0-3), (1-3) and (3-3) have been produced for many applications. [12] Of these structures, the 3-3 ferroelectric composites, in which the ceramic and polymer phases are interconnected in three directions, are also of particular interest as materials for acoustic transducers, medical imaging, muscle-like actuators, and for nondestructive evaluation.…”

“…The X-ray difraction (XRD) patterns and Fourier transform infrared (FTIR) spectra of PT were investigated. PbTiO 3 powders [11] were added to the acrylic rubber (AR71) at various volume fractions: 0.0, 0.00002, 0.00004, 0.0002, 0.0004, 0.002, 0.004, 0.02 and 0.04. Structural and electrical properties of the ferroelectric-composite materials were investigated and are reported here.…”

Electrorheology and characterization of acrylic rubber and lead titanate composite materials

Electrorheological properties of novel piezoelectric lead zirconate titanate Pb(Zr0.5,Ti0.5)O3-acrylic rubber composites