Sr05Ba0.5-xBixTiO3 (BST) thin films were fabricated on a Pt/SiO2/Si substrate by the sol-gel method. Then follows an investigation of the influeoces of bismuth (Bi) on the microstructures and the dielectric proper...Sr05Ba0.5-xBixTiO3 (BST) thin films were fabricated on a Pt/SiO2/Si substrate by the sol-gel method. Then follows an investigation of the influeoces of bismuth (Bi) on the microstructures and the dielectric properties of Sr0.5Ba0.5-xBixTiO3 (BST) thin films. The microstructures of the BST thin films were examined by the XRD and the TEM techniques. Tetragonal perovskite crystal grains were observed in BST thin films. Increasing Bi^3+ doping ration in BST will lead to decrease of the grain size. It is found that Bi^3+ doping decreases the dielectric loss and improves the frequency dispersion of the BST thin films. Not only is compressed the peak of temperature-dependence of dielectric constant of Bi^3+-doped BST thin films but also moves into the low-temperature region. Moreover, the average Curie tem- perature decreases gradually with the Bi^3+ contents increasing.展开更多
文摘Sr05Ba0.5-xBixTiO3 (BST) thin films were fabricated on a Pt/SiO2/Si substrate by the sol-gel method. Then follows an investigation of the influeoces of bismuth (Bi) on the microstructures and the dielectric properties of Sr0.5Ba0.5-xBixTiO3 (BST) thin films. The microstructures of the BST thin films were examined by the XRD and the TEM techniques. Tetragonal perovskite crystal grains were observed in BST thin films. Increasing Bi^3+ doping ration in BST will lead to decrease of the grain size. It is found that Bi^3+ doping decreases the dielectric loss and improves the frequency dispersion of the BST thin films. Not only is compressed the peak of temperature-dependence of dielectric constant of Bi^3+-doped BST thin films but also moves into the low-temperature region. Moreover, the average Curie tem- perature decreases gradually with the Bi^3+ contents increasing.
