Abstract
This paper describes a system for the synthesis of Cu-doped mesoporous TiO2nanoparticles by a hydrothermal method at relatively low temperatures. The technique used is to dope the as-prepared mesoporous TiO2system with copper. In this method, the copper species with the form of Cu1+, which was attributed to the reduction effect of dehydroxylation and evidenced by X-ray photoelectron spectroscopy (XPS) and X-ray diffraction (XRD), was well dispersed in the optimal concentration 1 wt.% Cu-doped mesoporous TiO2. In this as-prepared mesoporous TiO2system, original particles with a size of approximately 20 nm are aggregated together to shapes of approximately 1100 nm, which resulted in the porous aggregate structure. More importantly, the enhancement of the photocatalytic activity was discussed as effects due to the formation of stable Cu(I) and the mesoporous structure in the Cu-doped mesoporous TiO2. Among them, Cu-doped mesoporous TiO2shows the highest degradation rate of methyl orange (MO). In addition, the effects of initial solution pH on degradation of MO had also been investigated. As a result, the optimum values of initial solution pH were found to be 3.
Highlights
Titanium dioxide (TiO2) is the most widely used semiconductor as a stable photocatalyst, and its photocatalytic activity is mainly limited by the number of photogenerated electronhole pairs and their life
In the work of Xiong et al [7], results showed that the polymeric template as well as Journal of Nanomaterials calcination played an important role in tuning morphology, mesoporosity, and specific surface area of the synthesized mesoporous TiO2
Considering the two aspects above and utilizing the existing knowledge in the area of nanometer metal oxides preparation, the Cu-doped mesoporous TiO2 was prepared by a hydrothermal method at relatively low temperatures without calcination in this study
Summary
Titanium dioxide (TiO2) is the most widely used semiconductor as a stable photocatalyst, and its photocatalytic activity is mainly limited by the number of photogenerated electronhole pairs and their life. Among various metallic doping elements, the copper doping has been proved to be a simple and effective way to increase the visible light absorption. It is well known that ordered mesoporous materials with larger specific surface area, pore size, and the relatively regular channel structure are ideal materials for catalyst. In the work of Xiong et al [7], results showed that the polymeric template as well as Journal of Nanomaterials calcination played an important role in tuning morphology, mesoporosity, and specific surface area of the synthesized mesoporous TiO2. Considering the two aspects above and utilizing the existing knowledge in the area of nanometer metal oxides preparation, the Cu-doped mesoporous TiO2 was prepared by a hydrothermal method at relatively low temperatures without calcination in this study. The photocatalytic activities of the as-prepared Cu-doped mesoporous TiO2 were evaluated by photo degradation of methyl orange (MO)
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