Highly dense barium titanate nanoceramics have been successfully prepared via a mechanical activation synthesis method and Spark Plasma sintering. Attractive electrical properties have been evidenced in these materials: a colossal permittivity, (3.5. 105) and low loss (0.07) at room temperature and 1 kHz, that are stable over a wide frequency range (from 40 Hz to 40 kHz). Surprisingly, the ferroelectric transition is still observed, for the first time to our knowledge, in these colossal permittivity materials

Al-Naboulsi, Tawfik

Boulos, Madona

Dufour, Pascal

Guillemet-Fritsch, Sophie

Tenailleau, Christophe

Zakhour, Mirvat

International audienceHighly dense barium titanate nanoceramics have been successfully prepared via a mechanical activation synthesis method and Spark Plasma sintering. Attractive electrical properties have been evidenced in these materials: a colossal permittivity, (3.5. 105) and low loss (0.07) at room temperature and 1 kHz, that are stable over a wide frequency range (from 40 Hz to 40 kHz). Surprisingly, the ferroelectric transition is still observed, for the first time to our knowledge, in these colossal permittivity materials

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Colossal and frequency stable permittivity of barium titanate nanoceramics derived from mechanical activation and SPS sintering

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http://oatao.univ-toulouse.fr/23561/1/Al-Naboulsi_23561.pdf

Colossal and frequency stable permittivity of barium titanate nanoceramics derived from mechanical activation and SPS sintering

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Hal-Diderot

Open Archive Toulouse Archive Ouverte

Archive Ouverte en Sciences de l'Information et de la Communication