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Calcination-temperature-dependent gas-sensing properties of mesoporous α-Fe 2 O 3 nanowires as ethanol sensors
- Source :
- Solid State Sciences. 69:38-43
- Publication Year :
- 2017
- Publisher :
- Elsevier BV, 2017.
-
Abstract
- The mesoporous α-Fe 2 O 3 nanowires (NWs) were successfully synthesized by changing the calcination temperature from 550 to 750 °C (marked NWs-550, NWs-650 and NWs-750) via using SBA-15 silica as the hard templates with the nanocasting method. The characterization results indicated that the bandgap of the as-prepared samples hardly changed and the high BET surface areas changed a little with the calcination temperature from 550 to 750 °C. Mesoporous α-Fe 2 O 3 NWs had been found to possess the remarkable gas-sensing performance to ethanol gas. The gas-sensing behavior indicated that α-Fe 2 O 3 NWs-650 exhibited the higher response than that of α-Fe 2 O 3 NWs-550 and α-Fe 2 O 3 NWs-750. The calcination-temperature-dependent gas-sensing properties were mainly attributed to the competition of surface defects and body defects by the crystallization temperature. The lower calcination temperature could create more surface defects to improve the gas-sensing response, while the higher temperature would reduce the body defect and make the charge carriers transport easily. As the result, the suitable calcination temperature was desired to optimize the defects of nanostructures to improve the gas sensitivity.
- Subjects :
- Ethanol
Nanostructure
Materials science
Band gap
Nanowire
Nanotechnology
02 engineering and technology
General Chemistry
010402 general chemistry
021001 nanoscience & nanotechnology
Condensed Matter Physics
01 natural sciences
0104 chemical sciences
law.invention
Crystallization temperature
chemistry.chemical_compound
chemistry
Chemical engineering
law
General Materials Science
Charge carrier
Calcination
0210 nano-technology
Mesoporous material
Subjects
Details
- ISSN :
- 12932558
- Volume :
- 69
- Database :
- OpenAIRE
- Journal :
- Solid State Sciences
- Accession number :
- edsair.doi...........b336c1d1d2be20e87c7252747eebb4a6