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Synthesis and dielectric properties of layered-perovskite KCa2Nan-3NbnO3n+1 ceramics

Authors
Woo, Jong-UnKweon, Sang-HyoIm, MirLee, Woong-HeeKang, Chong-YoonNahm, Sahn
Issue Date
1-12월-2017
Publisher
ELSEVIER SCI LTD
Keywords
Powders: solid state reaction; Dielectric properties; Perovskite; Nanosheets
Citation
CERAMICS INTERNATIONAL, v.43, no.17, pp.15089 - 15094
Indexed
SCIE
SCOPUS
Journal Title
CERAMICS INTERNATIONAL
Volume
43
Number
17
Start Page
15089
End Page
15094
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/81228
DOI
10.1016/j.ceramint.2017.08.037
ISSN
0272-8842
Abstract
KCa2NaNb4O13 (4KCNNO)(1) ceramics are well-sintered at 1325 degrees C without any secondary phase. However, K2O evaporation occurs in KCa2Na2Nb5O16 (5KCNNO)(2) ceramics calcined at temperatures higher than 1200 degrees C, resulting in the formation of the KCa2Na3Nb6O19 (6KCNNO)(3) secondary phase. Excess-K2O was added to the 5KCNNO specimen to synthesize pure 5KCNNO ceramics by compensating for the evaporated K2O. The 5KCNNO ceramic containing 20 mol% excess-K2O sintered well at 1325 degrees C without any secondary phase. However, the 6KCNNO secondary phase also developed in specimens containing a large excess of K2O, owing to the reaction between excess-K2O and the 5KCNNO phase. Dielectric constant (epsilon(r)) of the 4KCNNO ceramic is 62 with a dielectric loss (tan delta) of 0.6% at 100 kHz and the 5KCNNO ceramic showed increased epsilon(r). of 70 with tan 6 of 0.3% at 100 kHz. The increase in the a,. value is rationalized by the increased number of NbO6 octahedral layers between the K+ layers. In addition, the structural and dielectric properties of the 5KCNNO ceramic are more important than those of the 4KCNNO ceramic from the application point of view, because the a,. value of the 5KCNNO ceramic is larger than that of the 4KCNNO ceramic.
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