Shuai Zhang, Ning Yu, Yunyang Li, Pengyuan Zhang, Qichao Huang, Li Shen
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引用次数: 0
摘要
CuO-介孔氧化硅纳米复合材料被广泛应用于吸附和降解环境污染物,这得益于介孔氧化硅有效的光生电子和空穴以及高比表面积。本文在介孔氧化硅的组装过程中引入了Cu(NO3)2,采用一步法制备了CuO/MCM-41纳米复合材料,与合成后移植法相比,大大简化了制备过程。制备的 CuO/MCM-41 纳米复合材料通过布鲁瑙尔-埃美特-泰勒(BET)、傅立叶变换红外光谱(FTIR)、场发射扫描电子显微镜(FE-SEM)、能量色散 X 射线光谱(EDS)和 X 射线衍射(XRD)进行了表征。CuO/MCM-41 纳米复合材料在 12W 紫外光辐照下对不同结构的染料,如亚甲蓝(MB)、直接快速猩红 4BS、直接黄 27 和活性松石蓝 KN-G 具有优异的降解效果。结果表明,光催化降解甲基溴的动力学研究与一阶动力学模型十分吻合。催化剂重复使用五个周期后,甲基溴的降解率保持在 97%。结果表明,CuO/MCM-41 纳米复合材料可作为一种有效的光催化剂,用于降解废水中不同类型的染料。
One-step synthesis of CuO/MCM-41 nanocomposites and their application in photocatalytic degradation of dyes
The CuO-mesoporous silicon oxide nanocomposites are widely used in the adsorption and degradation of environmental pollutants, attributing to the effective photogenerated electrons and holes and high specific surface area of mesoporous silicon oxide. In this papers, Cu(NO3)2 was introduced during the assembly process of mesoporous silicon oxide to prepare CuO/MCM-41 nanocomposites by one-step method, which significantly simplified the preparation process compared to post-synthesis transplantation method. The prepared CuO/MCM-41 nanocomposites was characterized by Brunauer–Emmett–Teller (BET), Fourier Transform Infrared Spectroscopy (FTIR), Field Emission Scanning Electron Microscope (FE-SEM), Energy-dispersive X-ray Spectroscopy (EDS) and X-ray Diffraction (XRD). CuO/MCM-41 nanocomposites had excellent degradation effect under UV irradiation of 12W on different structures dyes, such as Methylene Blue(MB), Direct Fast Scarlet 4BS, Direct Yellow 27 and Reactive Turquoise Blue KN-G. It was demonstrated that the kinetic studies of photocatalytic degradation of MB were fitted well with the first-order kinetic model. The degradation of MB retained 97% after five cycles reusing of the catalyst. The results indicated that CuO/MCM-41 nanocomposites could be used as an effective photocatalyst for the degradation of different types of dyes in wastewater.
期刊介绍:
The Journal of Porous Materials is an interdisciplinary and international periodical devoted to all types of porous materials. Its aim is the rapid publication
of high quality, peer-reviewed papers focused on the synthesis, processing, characterization and property evaluation of all porous materials. The objective is to
establish a unique journal that will serve as a principal means of communication for the growing interdisciplinary field of porous materials.
Porous materials include microporous materials with 50 nm pores.
Examples of microporous materials are natural and synthetic molecular sieves, cationic and anionic clays, pillared clays, tobermorites, pillared Zr and Ti
phosphates, spherosilicates, carbons, porous polymers, xerogels, etc. Mesoporous materials include synthetic molecular sieves, xerogels, aerogels, glasses, glass
ceramics, porous polymers, etc.; while macroporous materials include ceramics, glass ceramics, porous polymers, aerogels, cement, etc. The porous materials
can be crystalline, semicrystalline or noncrystalline, or combinations thereof. They can also be either organic, inorganic, or their composites. The overall
objective of the journal is the establishment of one main forum covering the basic and applied aspects of all porous materials.
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