高光催化活性改性多孔锐钛矿tio2的可控合成。

Mei-Qing Fan, Heng-Yi Yuan, Cheng Qiu, Hong-Xia Zhao, Xu Zeng, Xiao-Fei Zhang, Bo Ren
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引用次数: 0

摘要

在这项研究中,我们添加了ZrO₂和Y₂O₃来稳定锐钛矿的TiO₂相。以三嵌段共聚物P123和PEG为模板,采用溶胶-凝胶法制备了复合介孔TiO₂/ZrO₂/Y₂O₃(TZY)氧化物。采用x射线衍射(XRD)、拉曼散射、N₂吸附/解吸、紫外可见分光光度(UV-Vis)等方法对合成材料的性能进行了表征。采用P123和PEG双模板制备的样品比采用P123和PEG单模板制备的样品具有更小的颗粒和更高的比表面积。此外,在双模板法中,从锐钛矿到金红石的晶体相变发生得较晚。引入ZrO₂和Y₂O₃后,晶体的相变和晶粒的生长受到严重抑制。结果表明,双模板法对RhB的降解效率为99.24%,而对TZY/P123和TZY/PEG样品的RhB降解效率分别为97.43%和98.18%。
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Controllable Synthesis of Modified Porous Anatase TiO₂ with High Photocatalytic Activity.

In this study, we added ZrO₂ and Y₂O₃ to stabilize the anatase TiO₂ phase at higher temperatures. Composite mesoporous TiO₂/ZrO₂/Y₂O₃ (TZY) oxides were prepared by a sol-gel method, and triblockcopolymer P123 and PEG was used as templates. The properties of the synthesized materials were characterized using X-Ray diffraction (XRD), Raman scattering, N₂ adsorption/desorption, and UV-Visible spectrophotometry (UV-Vis) methods et al. The samples prepared using P123 and PEG as double-template exhibited smaller particles and a higher specific surface area than the samples prepared using P123 and PEG as single-template. Furthermore, crystal phase transition from anatase to rutile occurred later in the case of the double-template method. After introducing ZrO ₂and Y₂O₃, the crystal phase transition and the growth of crystallites were severely suppressed. The results indicated that the RhB degradation efficiency for the double-template method was 99.24%, while the RhB degradation efficiency with TZY/P123 and TZY/PEG samples was 97.43 and 98.18%, respectively.

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来源期刊
Journal of nanoscience and nanotechnology
Journal of nanoscience and nanotechnology 工程技术-材料科学:综合
自引率
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0
审稿时长
3.6 months
期刊介绍: JNN is a multidisciplinary peer-reviewed journal covering fundamental and applied research in all disciplines of science, engineering and medicine. JNN publishes all aspects of nanoscale science and technology dealing with materials synthesis, processing, nanofabrication, nanoprobes, spectroscopy, properties, biological systems, nanostructures, theory and computation, nanoelectronics, nano-optics, nano-mechanics, nanodevices, nanobiotechnology, nanomedicine, nanotoxicology.
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