Songliu Yuan scite author profile

Songliu Yuan

3Publications

22Citation Statements Received

90Citation Statements Given

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Affiliations

Huazhong University of Science and Technology, Nanjing University

Publications

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High permittivity in Zr doped NiO ceramics

Chen

Yuan

et al. 2007

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We report on measurements of the dielectric permittivity of NiO-based ceramics doped with Zr ͑ZNO͒. Samples were prepared by the traditional solid-state reaction method. The concentration of Zr has an effect on the dielectric properties of ZNO ceramics. High permittivity values ͑ϳ10 4 ͒ were observed which remain almost constant from 200 K to 350 K at low frequencies. The high-dielectric-constant response of the ZNO ceramics is attributed mainly to a grain boundary ͑internal͒ barrier layer capacitance.

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High-temperature colossal dielectric response in RFeO3 (R=La, Pr and Sm) ceramics

Huang¹,

Shi²,

Tian³

et al. 2015

Ceramics International

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Grain size effect on the giant dielectric and nonlinear electrical behaviors of Bi1/2Na1/2Cu3Ti4O12 ceramics

et al. 2012

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Single phase Bi 1/2 Na 1/2 Cu 3 Ti 4 O 12 (BNCTO) ceramics with different grain sizes (1.4-4.3 µm) are prepared by a modified Pechini method to investigate their giant dielectric and nonlinear electrical behaviors. The results show that the giant dielectric and nonlinear electrical behaviors are strongly dependent on grain size. With the increment of grain size, the dielectric constant increases monotonically from 14110 (for 1.4 µm sample) to 36183 (for 4.3 µm sample) at 1 kHz, in accompaniment with the breakdown voltage reducing from 112.5 to 43.2 V/mm and the nonlinear coefficient reducing from 4.9 to 3.4. On the basis of the internal barrier layer capacitor (IBLC) model and the IBLC model of Schottky-type potential barrier, an interpretation of the grain size effect on the giant dielectric and nonlinear electrical behaviors is presented.

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Songliu Yuan

High permittivity in Zr doped NiO ceramics

High-temperature colossal dielectric response in RFeO3 (R=La, Pr and Sm) ceramics

Grain size effect on the giant dielectric and nonlinear electrical behaviors of Bi1/2Na1/2Cu3Ti4O12 ceramics

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