Microstructure Evolution of Graphite Intercalated by TiO2 and Its Photocatalytic Activity
来源期刊:Journal Of Wuhan University Of Technology Materials Science Edition2009年第2期
论文作者:贺蕴秋
文章页码:223 - 228
摘 要:An intercalative composite of graphite oxide (GO) as host intercalated by an object of TiO2 nanoparticles was obtained at low temperature by mixing GO with Ti(SO4)2 solution, and by another object of Ti2O3 while mixing with TiCl4 ethanol solution. Microstructures of the GO and its intercalative composites at different C/Ti ratio were studied by XRD, SEM, AFM and FT-IR, and the evolution of these lamellar structures was studied based on the temperature change. The photocatalytic activity of the intercalative composites was characterized according to the degradation of methyl orange. The intercalative composite formed by Ti(SO4)2 solution presents an excellent photocatalytic reactivity, while that formed by TiCl4 presents no observablly photocatalytic reactivity. The electric conductivity variation of different composites was checked, in order to investigate the role of the possible electron transfer between the graphite layer and TiO2 nanocrystal during TiO2 excited by UV light irradiation.
贺蕴秋
School of material Science and Engineering, Tongji University
摘 要:An intercalative composite of graphite oxide (GO) as host intercalated by an object of TiO2 nanoparticles was obtained at low temperature by mixing GO with Ti(SO4)2 solution, and by another object of Ti2O3 while mixing with TiCl4 ethanol solution. Microstructures of the GO and its intercalative composites at different C/Ti ratio were studied by XRD, SEM, AFM and FT-IR, and the evolution of these lamellar structures was studied based on the temperature change. The photocatalytic activity of the intercalative composites was characterized according to the degradation of methyl orange. The intercalative composite formed by Ti(SO4)2 solution presents an excellent photocatalytic reactivity, while that formed by TiCl4 presents no observablly photocatalytic reactivity. The electric conductivity variation of different composites was checked, in order to investigate the role of the possible electron transfer between the graphite layer and TiO2 nanocrystal during TiO2 excited by UV light irradiation.
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