Add to ORKGHighly 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
Barium titanate (BaTiO3) is a well-known ferroelectric material and widely used in electronic indust...
BaTiO3 nanopowders prepared by two different wet chemical routes, one based on microemulsion-mediate...
The miniaturisation of electronic components required for many devices involves an increase their vo...
International audienceHighly dense barium titanate nanoceramics have been successfully prepared via ...
In pursuit of high permittivity materials for electronic application, there has been a considerable ...
The current work aims to reduce the energy required to obtain a high quality barium titanate nanocry...
BaTiO3−x and Ba0.95La0.05TiO3−x nanoceramics showing colossal permittivity values have been characte...
Barium titanate (BT) ceramics with Ba/Ti ratios of 0.95 and 1.00 were synthesized using spark plasma...
Development of microelectronic devices is driven by a large demand for faster and smaller systems. I...
Nanocrystalline powders of Barium titanate (BaTiO3 or BT) and Ba(Ti0.96SnxZr0.04-x)O3 (BTSZ1, BTSZ2,...
Barium titanate powder was prepared by soft chemical process from polymeric precursors (modified Pec...
International audienceThe oxalate route offers a controlled approach to synthesize pure Ba1–xSrxTiO3...
Fine powders of BaTiO3 are synthesized by hydrothermal processing at 250 C for 7 h. Two different st...
Barium titanate ceramics were prepared using the nanopowder resulting from a polymeric precursor met...
Barium titanate ceramics were prepared through mechanochemical synthesis starting from fresh prepare...
Barium titanate (BaTiO3) is a well-known ferroelectric material and widely used in electronic indust...
BaTiO3 nanopowders prepared by two different wet chemical routes, one based on microemulsion-mediate...
The miniaturisation of electronic components required for many devices involves an increase their vo...
International audienceHighly dense barium titanate nanoceramics have been successfully prepared via ...
In pursuit of high permittivity materials for electronic application, there has been a considerable ...
The current work aims to reduce the energy required to obtain a high quality barium titanate nanocry...
BaTiO3−x and Ba0.95La0.05TiO3−x nanoceramics showing colossal permittivity values have been characte...
Barium titanate (BT) ceramics with Ba/Ti ratios of 0.95 and 1.00 were synthesized using spark plasma...
Development of microelectronic devices is driven by a large demand for faster and smaller systems. I...
Nanocrystalline powders of Barium titanate (BaTiO3 or BT) and Ba(Ti0.96SnxZr0.04-x)O3 (BTSZ1, BTSZ2,...
Barium titanate powder was prepared by soft chemical process from polymeric precursors (modified Pec...
International audienceThe oxalate route offers a controlled approach to synthesize pure Ba1–xSrxTiO3...
Fine powders of BaTiO3 are synthesized by hydrothermal processing at 250 C for 7 h. Two different st...
Barium titanate ceramics were prepared using the nanopowder resulting from a polymeric precursor met...
Barium titanate ceramics were prepared through mechanochemical synthesis starting from fresh prepare...
Barium titanate (BaTiO3) is a well-known ferroelectric material and widely used in electronic indust...
BaTiO3 nanopowders prepared by two different wet chemical routes, one based on microemulsion-mediate...
The miniaturisation of electronic components required for many devices involves an increase their vo...