Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
5438324 | Ceramics International | 2017 | 52 Pages |
Abstract
Single-phase Ca1â3x/2TbxCu3Ti4âxTbxO12 (0.025⤠xâ¤0.075) (CTCTT) ceramics with a cubic perovskite-like structure and a fine-grained microstructure (1.6â2.3 µm) were prepared using a mixed oxides method. The results revealed that mixed valence states of Cu2+/Cu+, Ti4+/Ti3+, and Tb3+/Tb4+ coexisted in CTCTT. A multiphonon phenomenon in the Raman scattering at 1148, 1323, and 1502 cmâ1 was reported for undoped and doped CTTO. Tb was mainly incorporated in the interior of the CTCTT grains rather than on the surface. The dielectric permittivity of CTCTT (εr'RT =3590â5200) decreased relative to CCTO (εr'RT =10240) at f =1 kHz, but the dielectric loss of CTCTT (the minimum value of tan δ=0.12 at RT) increased as a result of Tb doping. The defect chemistry of CTCTT is discussed. The internal barrier layers capacitance (IBLC) model was adopted for impedance spectroscopy (IS) analysis. The activation energies of the grain boundaries (Egb) and semi-conductive grains (Eg) for CTCTT were determined to be 0.52 eV and 104 meV, respectively. The IS and defect chemistry analyses confirmed that the decrease in the dielectric permittivity was mainly due to a decrease in conductivity in the semiconducting CTCTT grains caused by the acceptor effect of Tb4+ at the Ti site, which resulted in a decrease in the IBLC effect.
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Physical Sciences and Engineering
Materials Science
Ceramics and Composites
Authors
Da-Yong Lu, Xin-Yu Yu, Jun-Wei Liu,