DIELECTRIC, STRUCTURAL AND SPECTROSCOPIC PROPERTIES OF Mg-DOPED CaCu3Ti4O12 CERAMICS BY THE SOLID-STATE REACTION METHOD


Izci E.

40th International Conference of the American-Ceramic-Society on Advanced Ceramics and Composites (ICACC), Florida, United States Of America, 24 - 29 January 2016, pp.127-134 identifier identifier

  • Publication Type: Conference Paper / Full Text
  • Doi Number: 10.1002/9781119321774.ch13
  • City: Florida
  • Country: United States Of America
  • Page Numbers: pp.127-134
  • Anadolu University Affiliated: Yes

Abstract

Since the discovery of the gigantic dielectric constant in the CCTO supercapacitor in 2000, development of its practical application for energy storage has been of great interest. In this study, the CaCuiTi.4012 (CCTO) and Mg doped (370 ceramic samples (Ca(1-)xMg(x)Cu(3)Ti(4)O(12)) were synthesized by the traditional solid-slate reaction method using CaCO3, CuO, MgO, and TiO2. This was achieved in a shorter time compared to conventional ceramic methods. The precursors were calcined at 950.0 in air for 12 h to obtain nanocrystalline powders of CCTO and Mg doped CCTO samples and then the samples were sintered at 1000 C in air for 12h. The sintered CCTO and Mg doped CCTO samples wore characterized by XRD, FTIR, and Raman spectroscopy. The XRD results indicate that all the sintered samples have a typical perovskite CaCu3Ii40t2 structure, and small amounts of CuO and Rutile. From the FTIR spectra, the modes observed at 606, 525 and 463 cm(-1) were assigned to vibration modes of Ca O, CuO and Ti O Ti, respectively. The dielectric constant of x=0 at 1 kHz is about 12734 increasing to 18381 with higher Mg2*(x= 0.4) content. However, the dielectric constant for the x=0.08 sample shows different behavior leading to a decrease in the dielectric constant. The dielectric loss of CCTO samples can he reduced with the addition of Mg dopant.