Low Temperature Solid-State Synthesis of High-Purity BiFeO3 Ceramic for Ferroic Thin-Film Deposition
- Title
- Low Temperature Solid-State Synthesis of High-Purity BiFeO3 Ceramic for Ferroic Thin-Film Deposition
- Authors
- 이지현
- Date Issued
- 2018
- Publisher
- 포항공과대학교
- Abstract
- The synthesis of high-purity BiFeO3 (BFO) ceramic by solid-state reaction is known to be very difficult due to inevitable formation the secondary phases, mostly mullite-type Bi2Fe4O9 and sillenite-type Bi25FeO39. In particular, it is very difficult to completely remove the Bi-deficient Bi2Fe4O9 phase from sintered ceramic BFO targets. This problem consequently leads to the difficulty of fabricating high-quality BFO thin films using these sintered targets.
Here in, we introduce a simple but effective low-temperature processing scheme of removing impurity phases in which optimized processing conditions are obtained by chemically correlating the first calcination step with the subsequent leaching and sintering steps. More specifically, we suitably avoid the formation of the high temperature stable Bi2Fe4O9 phase by performing the calcination at significantly low temperature (between 650 and 675 ℃) with Bi-excess starting powders. We have then fabricated epitaxially grown BFO thin film using these phase-pure ceramic targets and consequently achieved high-quality ferroelectricity and switchable photovoltaic responses. On the basis of the present experimental observations, we suggest that a low impurity concentration in the sintered BFO ceramic target, even with a low relative density, is advantageous for high-quality thin-film fabrication.
- URI
- http://postech.dcollection.net/common/orgView/200000006812
https://oasis.postech.ac.kr/handle/2014.oak/93471
- Article Type
- Thesis
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