Xiangkai Xiao scite author profile

The phase evolution, microstructure, and electrical properties of WO 3 -doped ZnO-Bi 2 O 3 -based varistors were investigated for different amounts x (0 ≤ x ≤ 1.60 mol%) of the dopant. When x was less than 0.40, the dissolved W 6+ in the b-Bi 2 O 3 acted as a donor in the grain boundaries and reduced the electrical properties of the ZnO varistors. However, when x was 0.40 mol%, which meant an amount of WO 3 equal to that of Bi 2 O 3 , the electrical properties dramatically increased, which means the W 6+ donor effect is removed at the grain boundaries because a new Bi 2 WO 6 phase was formed in the grain-boundary regions. The Bi 2 WO 6 phase has high oxygen conductivity at high temperatures; it transfers more oxygen to the grain boundaries in order to further enhance the electrical properties. For x values higher than 0.40 (i.e., an addition of WO 3 that is greater than the content of Bi 2 O 3 ), the electrical properties were steadily reduced in comparison to the composition with x = 0.40. This could be explained by the reduced amount of Co, Mn, and Al at the grain boundaries and in the ZnO grains as a result of their incorporation into the ZnWO 4 phase. The electrical properties of the ZnO grains and the grain boundaries were in agreement with the results of the impedance spectroscopy analysis. L. M. Levinson-contributing editor Manuscript No. 35357.

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Xiangkai Xiao

Effect of Cr2O3 on the property and microstructure of ZnO–Bi2O3 varistor ceramics in different sintering temperature

Influence of WO₃‐Doping on the Microstructure and Electrical Properties of ZnO–Bi₂O₃ Varistor Ceramics Sintered at 950°C

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Xiangkai Xiao

Effect of Cr2O3 on the property and microstructure of ZnO–Bi2O3 varistor ceramics in different sintering temperature

Influence of WO3‐Doping on the Microstructure and Electrical Properties of ZnO–Bi2O3 Varistor Ceramics Sintered at 950°C

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Influence of WO₃‐Doping on the Microstructure and Electrical Properties of ZnO–Bi₂O₃ Varistor Ceramics Sintered at 950°C