MnOx-L负载Fe催化剂的制备及其催化氧化CO性能

    Preparation of Fe-doped Octahedral Layered Birnessites Catalysts and the Catalytic Oxidation of CO

    • 摘要: 为了有效去除大气污染物中的CO,使用氧化还原法制备层状锰氧化物MnOx-L,并用离子交换法制备了负载不同质量分数Fe的Fex/MnOx-L催化剂.使用扫描电子显微镜(scanning electron microscope,SEM)、X射线衍射(X-ray diffraction,XRD)技术、比表面积测定(brunauer emmett teller,BET)、热重分析(thermogravimetric analysis,TGA)、氢气程序升温还原(hydrogen temperature-programmed reduction,H2-TPR)、氧气程序升温脱附(oxygen temperature-programmed,O2-TPD)、X射线光电子能谱(X-ray photoelectron spectroscopy,XPS)等技术表征催化剂形貌、结构及性能.层状锰氧化物MnOx-L具有典型的八面体层状结构,Fe负载对催化剂结构影响不大,但对其理化性质产生了影响.Fe负载改变了催化剂的还原性及其表面的m(Fe2+)/m(Fe3+)和m(Oads)/m(Olatt)比例,提高了样品的催化活性.在所有Fex/MnOx-L样品中,Fe5/MnOx-L具有最高的低温还原性、氧移动性,m(Fe2+)/m(Fe3+)及表面吸附氧最高.催化氧化CO反应中,Fe5/MnOx-L具有最佳的催化活性(t50=80℃和t90=150℃),这与Fe和MnOx-L载体之间的相互作用有关.

       

      Abstract: To effectively remove CO from atmospheric pollutants, the octahedral layered birnessites (MnOx-L) was prepared by a redox method, and Fex/MnOx-L samples with different mass fractions of Fe loading were prepared by ion exchange method. Physicochemical properties of the samples were characterized by scanning electron microscope (SEM), X-ray diffraction (XRD) technique, BET (specific surface area measurement), thermogravimetric analysis (TGA), hydrogen temperature programmed reduction (H2-TPR), oxygen temperature-programmed desorption (O2-TPD), X-ray photoelectron spectroscopy (XPS) techniques. MnOx-L support was a typical octahedral birnessites structure. Fe loading did not affect the support structure, but influenced their physical and chemical properties. The reduction of the catalyst and the ratio of m(Fe2+)/m(Fe3+) and m(Oads)/m(Olatt) on the surface changed, as well as the catalytic activity significantly improved after loading iron. Among Fex/MnOx-L samples, Fe5/MnOx-L showed the best reducibility, oxygen mobility, and the highest ratio of m(Fe2+)/m(Fe3+) and surface adsorption oxygen. Fe5/MnOx-L showed the best catalytic activity (t50=80℃ and t90=150℃) for CO oxidation, related to the interaction between Fe species and MnOx-L.

       

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