Li Danping, Zhang Beibei, Xu Jingcai, Han Yanbing, Jin Hongxiao, Jin Dingfeng, Peng Xiaoling, Ge Hongliang, Wang Xinqing
College of Materials Science and Engineering, China Jiliang University, Hangzhou, 310018, People's Republic of China.
Nanotechnology. 2016 May 6;27(18):185702. doi: 10.1088/0957-4484/27/18/185702. Epub 2016 Mar 22.
In this study, α-Fe2O3 nanowires were synthesized using mesoporous SBA-15 silica as the hard templates with the nanocasting method, and then mesoporous α-Fe2O3 nanowire bundles (NWBs) were separated from the well-dispersed α-Fe2O3 nanowires (NWs) by the centrifugation technique. Both samples were characterized by x-ray diffraction, transmission electron microscopy (TEM), nitrogen adsorption/desorption isotherm and UV-vis spectra. All results indicated that the α-Fe2O3 NWBs with mesoporous structure presented a higher BET surface area (95 m(2) g(-1)) and wider bandgap (2.08 eV) than those of α-Fe2O3 NWs (32 m(2) g(-1) and 1.91 eV). The bandgap of α-Fe2O3 NWBs was in accordance with the bulk α-Fe2O3, while the BET surface area was much higher. The results from the gas-sensing measurement revealed that the α-Fe2O3 NWBs based gas sensor exhibited a high sensitivity of 21.7, fast response-recovery of 7.5 s and 1 s, and good selectivity to ethanol at 340 °C. The sensitivity (21.7) for ethanol of α-Fe2O3 NWBs was much better than that of the α-Fe2O3 NWs (12.2), which should be attributed to the higher BET surface area and wider bandgap of α-Fe2O3 NWBs.
在本研究中,采用纳米铸造法以介孔SBA - 15二氧化硅为硬模板合成了α - Fe2O3纳米线,然后通过离心技术从充分分散的α - Fe2O3纳米线中分离出介孔α - Fe2O3纳米线束(NWBs)。通过X射线衍射、透射电子显微镜(TEM)、氮气吸附/脱附等温线和紫外 - 可见光谱对两个样品进行了表征。所有结果表明,具有介孔结构的α - Fe2O3纳米线束的比表面积(95 m² g⁻¹)和带隙(2.08 eV)比α - Fe2O3纳米线(32 m² g⁻¹和1.91 eV)更高。α - Fe2O3纳米线束的带隙与块状α - Fe2O3一致,而比表面积则高得多。气敏测试结果表明,基于α - Fe2O3纳米线束的气体传感器在340℃时对乙醇具有21.7的高灵敏度、7.5秒和1秒的快速响应 - 恢复时间以及良好的选择性。α - Fe2O3纳米线束对乙醇的灵敏度(21.7)远优于α - Fe2O3纳米线(12.2),这应归因于α - Fe2O3纳米线束具有更高的比表面积和更宽的带隙。
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