Microstructure and enhanced dielectric properties of BaTiO(3)–SiO(2) nanocomposites using hydrogen treated nanoparticles

Abstract

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BaTiO(3) (BT) nanoparticles treated in H(2) and then coated with a layer of SiO(2) were used as the starting material to synthesise BT–SiO(2) nanocomposites through the conventional ceramic process. A denser morphology was obtained in the BT–SiO(2) composites. The H(2) treatment induced not only the oxygen vacancies, but also other changes (i.e. ionic disorders) in the BT. These ionic disorders were more permanent and enhanced the reaction between the BT and SiO(2) during the sintering process. Comparing with the nanocomposites sintered from the untreated BT nanoparticles, the nanocomposites sintered from the H(2) treated BT nanoparticles exhibit an enhanced dielectric performance (i.e. a higher dielectric constant and a high electric breakdown field). Among the temperatures (i.e. 850, 900, 950 and 1000°C) used to treat the BT nanoparticles in H(2), it is experimentally found that 950°C is the best. For example, for the composites with 20 wt% SiO(2), the dielectric constant is enhanced more than four times and the breakdown field is enhanced by about 30%. It is believed that the enhancement in the dielectric response is due to the dipoles formed by the ionic disorders, especially the acceptor defects.

Keywords

• dielectric losses
• barium compounds
• vacancies (crystal)
• nanocomposites
• nanoparticles
• ceramics
• electric breakdown
• sintering
• permittivity
• nanofabrication
• nanocomposites
• dielectric response
• ionic disorders
• hydrogen treated nanoparticles
• conventional ceramic process
• denser morphology
• oxygen vacancies
• sintering process
• dielectric constant
• electric breakdown field
• dielectric properties
• temperature 850.0 degC to 1000 degC
• SiO(2)
• BaTiO(3)