Solid-state synthesis of ultrafine BaTiO3 powders from nanocrystalline BaCO3 and TiO2
Academic Article
Publication Date:
2005
abstract:
Barium titanate has been prepared by solid-state reaction of
nanocrystalline TiO2 (70 nm) with BaCO3 of different particle
size (650, 140, and 50 nm). The results give evidence of a strong
effect of the size of BaCO3 in the solid-state synthesis of barium
titanate. The use of nanocrystalline BaCO3 already leads to
formation of the single-phase BaTiO3 after calcination for 8 h at
800°C. The final powder consists of primary particles of ~100
nm, has a narrow particle size distribution with d50=270 nm,
and no agglomerates larger than 800 nm. For the coarser carbonate,
4 h calcination at 1000°C are required and the final
powder is much coarser. Solid-state reaction of nanocrystalline
BaCO3 and TiO2 represents an alternative to chemical preparation
routes for the production of barium titanate ultrafine
powders.
nanocrystalline TiO2 (70 nm) with BaCO3 of different particle
size (650, 140, and 50 nm). The results give evidence of a strong
effect of the size of BaCO3 in the solid-state synthesis of barium
titanate. The use of nanocrystalline BaCO3 already leads to
formation of the single-phase BaTiO3 after calcination for 8 h at
800°C. The final powder consists of primary particles of ~100
nm, has a narrow particle size distribution with d50=270 nm,
and no agglomerates larger than 800 nm. For the coarser carbonate,
4 h calcination at 1000°C are required and the final
powder is much coarser. Solid-state reaction of nanocrystalline
BaCO3 and TiO2 represents an alternative to chemical preparation
routes for the production of barium titanate ultrafine
powders.
Iris type:
01.01 Articolo in rivista
Keywords:
Barium-titanate; Thermal-decomposition; Metatitanate BaTiO3; Carbonates; Kinetics
List of contributors:
Bassoli, Marta; Buscaglia, MARIA TERESA; Buscaglia, Vincenzo
Published in: