Modulus spectroscopy of CaCu3Ti4O12 ceramics: clues to the internal barrier layer capacitance mechanism

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abstract

To date, all existing literature on the so-called 'high permittivity' perovskite oxide CaCu3Ti4O12 (CCTO) in the form of ceramics, single crystals and thin films show the grains (bulk) to exhibit semiconductivity with room temperature, RT, resistivity of similar to 10-100 Omega cm. Here we show that CCTO grains can be highly resistive with RT resistivity >1 G Omega cm when CCTO ceramics are processed at lower temperature (700 degrees C). With increasing processing temperature, the semiconducting CCTO phase commonly reported in the literature emerges from grain cores and grows at the expense of the insulating phase. For sintering temperatures of similar to 1000-1100 degrees C, the grains are dominated by the semiconducting phase and the insulating phase exists only as a thin layer grain shell/grain boundary region. This electrical microstructure results in the formation of the so-called Internal Barrier Layer Capacitance (IBLC) or Maxwell-Wagner mechanism that produces the commonly reported high effective permittivity at radio frequencies in dense ceramics. The relationship between Cu loss at elevated processing temperatures and the transformation of the grain resistivity from an insulating to semiconducting state with increasing processing temperature is also discussed.

keywords

GIANT DIELECTRIC-CONSTANT; COPPER-TITANATE; IMPEDANCE; BATIO3

subject category

Chemistry

authors

Costa, SIR; Li, M; Frade, JR; Sinclair, DC

our authors

foto Jorge Ribeiro Frade

Jorge Ribeiro Frade

Full professor

Groups

3 - Carbon Materials, Composites and Functional Coatings

acknowledgements

ML and DCS thank the Engineering and Physical Sciences Research Council (United Kingdom) for funding (Grant No. EP/G005001/1).

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Publication Details

type
Journal Article
year
2013
journal
RSC ADVANCES
volume
3
publisher
ROYAL SOC CHEMISTRY
issn
2046-2069
issue
19
digital object identifier
10.1039/c3ra40216a
web of science article identifier
WOS:000317929800048

Journal Metrics (JCR 2019)

Journal Impact Factor
3.119
Journal Impact Factor (5 yrs)
3.098
category normalized journal percentile
59.04

Citations

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