Lead-free luminescent multifunctional (Ba0.99Ca0.01)1−xEux(Ti0.98Zr0.02)O3 (x = 0, 0.002, 0.004 and 0.006) (BCEZT-x) ceramics were successfully synthesized using solid state reaction method. The effects of Eu addition on the phase structure and electrical… Click to show full abstract
Lead-free luminescent multifunctional (Ba0.99Ca0.01)1−xEux(Ti0.98Zr0.02)O3 (x = 0, 0.002, 0.004 and 0.006) (BCEZT-x) ceramics were successfully synthesized using solid state reaction method. The effects of Eu addition on the phase structure and electrical properties of the BCEZT-x ceramics were systematically studied. Results show that orthorhombic–tetragonal (O–T) phase transitions temperature decreases with increasing Eu content, and coexistence of the O and T phases is observed near room temperature (RT) in the composition range of 0.002–0.004. All the BCEZT-x ceramics exhibit high Curie temperature (TC > 115 °C), especially TC ≈120 °C for the composition of x = 0.002. The BCEZT-x ceramics at x = 0.002 exhibit excellent piezoelectric properties (d33 = 400 pC/N and kp = 52%), due to the coexistence of the O and T phase at RT. Meanwhile, a large strain Smax of ~0.22% is obtained at x = 0.004 for the BCEZT-x ceramics. Moreover, studies on photoluminescence properties of the ceramics shows that luminescence properties are strongly dependent on the doping concentration for the BCEZT-x ceramics. The strongest photoluminescence occurs at x = 0.004 of the BCEZT-x ceramics. Upon the excitation of 465 nm light, all the BCEZT-x ceramics have two intense emission peaks around 593 nm and 616 nm. According to the CIE chromaticity diagram, the ceramics possess a bright yellow light (x = 0.483, y = 0.4991). These results indicate that the BCEZT-x ceramics have significant technological potential as multifunctional devices due to their excellent electric and luminescence properties.
               
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