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Photocatalytic decomposition of methanol over La/TiO2 materials
Authors:Kamila Kočí  Ivana Troppová  Miroslava Edelmannová  Jakub Starostka  Lenka Matějová  Jaroslav Lang  Martin Reli  Helena Drobná  Anna Rokicińska  Piotr Kuśtrowski  Libor Čapek
Affiliation:1.Institute of Environmental Technology,V?B-Technical University of Ostrava,Ostrava–Poruba,Czech Republic;2.Faculty of Metallurgy and Material Engineering,V?B-Technical University of Ostrava,Ostrava–Poruba,Czech Republic;3.Faculty of Chemical Technology,University of Pardubice,Pardubice,Czech Republic;4.Faculty of Chemistry,Jagiellonian University,Kraków,Poland
Abstract:Lanthanum-modified TiO2 photocatalysts (0.2–1.5 wt% La) were investigated in the methanol decomposition in an aqueous solution. The photocatalysts were prepared by the common sol-gel method followed by calcination. The structural (X-ray diffraction, Raman, X-ray photoelectron spectroscopy), textural (N2 physisorption), and optical properties (diffuse reflectance spectroscopy, photoelectrochemical measurements) of all synthetized nanomaterials were correlated with photocatalytic activity. Both pure TiO2 and La-doped TiO2 photocatalysts proved higher yields of hydrogen in comparison to photolysis. The photocatalyst with optimal amount of lanthanum (0.2 wt% La) showed almost two times higher amount of hydrogen produced at the same time as in the presence of pure TiO2. The photocatalytic activity increased with both increasing photocurrent response and decreasing amount of lattice and surface O species. It has been shown that both direct and indirect mechanisms of methanol photocatalytic oxidation participate in the production of hydrogen. Both direct and indirect mechanisms take part in the formation of hydrogen.
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