Effect of samarium and vanadium co-doping on structure, ferroelectric and photocatalytic properties of bismuth titanateElectronic supplementary information (ESI) available. See DOI: 10.1039/c7ra00021a
We performed a systematic analysis of the structure, ferroelectric and photocatalytic activities of Sm and V co-doped Bi 4 Ti 3 O 12 (SBVT) ceramics. The formation of 3-layered Aurivillius structure and chemically induced strain of SBVT were analyzed by SEM and HRTEM studies. From the results of str...
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Main Authors | , , , , , , , , |
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Format | Journal Article |
Language | English |
Published |
02.02.2017
|
Online Access | Get full text |
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Summary: | We performed a systematic analysis of the structure, ferroelectric and photocatalytic activities of Sm and V co-doped Bi
4
Ti
3
O
12
(SBVT) ceramics. The formation of 3-layered Aurivillius structure and chemically induced strain of SBVT were analyzed by SEM and HRTEM studies. From the results of structural refinements, temperature dependent XRD and Raman spectra we found that SBVT has a distorted orthorhombic structure and transforms to tetragonal in the temperature range of 475-600 °C. Raman modes of Bi sites experience the phase transition earlier compared to torsional bending modes of BO
6
octahedra. From the results of polarization and piezoelectric strain measurements, we found that SBVT exhibits superior ferroelectric characteristics as well as improved
S
33
(0.02 × 10
−3
) compared to other rare-earth doped Bi
4
Ti
3
O
12
materials reported in the literature. SBVT exhibited fatigue endurance up to 10
8
switching cycles. Such a behavior is attributed to the structural distortions due to the smaller ionic radius of Sm
3+
and reduced oxygen vacancies. Local piezoresponse measurements demonstrated imprint characteristics of ferroelectric domains. Furthermore, we assessed the photocatalytic (PC) activity of SBVT - for the first time - in the gas-solid phase, monitoring the degradation of nitrogen oxides (
i.e.
NO + NO
2
). Results demonstrated that SBVT was photocatalytically active in the solar spectrum, being able to degrade NO
x
at ppb level concentration, and exhibited a very stable PC activity (five consecutive PC runs), proving itself suitable for reuse.
A systematic analysis of the structure, ferroelectricity and photocatalytic activity (PCA) of Sm and V modified Bi
4
Ti
3
O
12
was performed. Highly reproducible gas-solid phase PCA of NO
x
abatement and improved ferroelectricity were achieved. |
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Bibliography: | 10.1039/c7ra00021a Electronic supplementary information (ESI) available. See DOI |
ISSN: | 2046-2069 |
DOI: | 10.1039/c7ra00021a |