Martin Reli scite author profile

TiO/g-CN photocatalysts with the ratio of TiO to g-CN ranging from 0.3/1 to 2/1 were prepared by simple mechanical mixing of pure g-CN and commercial TiO Evonik P25. All the nanocomposites were characterized by X-ray powder diffraction, UV-vis diffuse reflectance spectroscopy, photoluminescence, X-ray photoelectron spectroscopy, Raman spectroscopy, infrared spectroscopy, transmission electron microscopy, photoelectrochemical measurements, and nitrogen physisorption. The prepared mixtures along with pure TiO and g-CN were tested for the photocatalytic reduction of carbon dioxide and photocatalytic decomposition of nitrous oxide. The pure g-CN exhibited the lowest photocatalytic activity in both cases, pointing to a very high recombination rate of charge carriers. On the other hand, the most active photocatalyst toward all the products was (0.3/1)TiO/g-CN. The highest activity is achieved by combination of a number of factors: (i) specific surface area, (ii) adsorption edge energy, (iii) crystallite size, and (iv) efficient separation of the charge carriers, where the efficient charge separation is the most decisive parameter.

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Preparation, characterization and photocatalytic properties of cerium doped TiO2: On the effect of Ce loading on the photocatalytic reduction of carbon dioxide

Matějová

Kočí

Reli

et al. 2014

Applied Catalysis B: Environmental

115

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Novel cerium doped titania catalysts for photocatalytic decomposition of ammonia

Reli

Ambrožová

Šihor

et al. 2015

Applied Catalysis B: Environmental

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Production of renewable fuels by the photohydrogenation of CO₂: effect of the Cu species loaded onto TiO₂ photocatalysts

Boren

Nguyen

et al. 2016

Phys. Chem. Chem. Phys.

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The efficient gas phase photocatalytic hydrogenation of CO2 into a desirable renewable fuel was achieved using a Cu-loaded TiO2 photocatalyst system. Enhancing the amount of Ti(3+) relative to Ti(4+) in a Cu-loaded TiO2 photocatalyst provided an excellent opportunity to promote the photohydrogenation of CO2. The coexistence of Cu and Cu(+) species during the photoreaction was shown to efficiently enhance the photocatalytic activity by prolonging the lifetime of the electrons. To achieve the best photoactivity, the Cu species must be maintained at an appropriately low concentration (≤1 wt%). The highest CH4 yield obtained was 28.72 μmol g(-1). This approach opens a feasible route not only to store hydrogen by converting it into a desirable renewable fuel, but also to reduce the amount of the greenhouse gas CO2 in the atmosphere.

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Martin Reli

Novel TiO₂/C₃N₄ Photocatalysts for Photocatalytic Reduction of CO₂ and for Photocatalytic Decomposition of N₂O

Preparation, characterization and photocatalytic properties of cerium doped TiO2: On the effect of Ce loading on the photocatalytic reduction of carbon dioxide

Novel cerium doped titania catalysts for photocatalytic decomposition of ammonia

Production of renewable fuels by the photohydrogenation of CO₂: effect of the Cu species loaded onto TiO₂ photocatalysts

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Martin Reli

Novel TiO2/C3N4 Photocatalysts for Photocatalytic Reduction of CO2 and for Photocatalytic Decomposition of N2O

Preparation, characterization and photocatalytic properties of cerium doped TiO2: On the effect of Ce loading on the photocatalytic reduction of carbon dioxide

Novel cerium doped titania catalysts for photocatalytic decomposition of ammonia

Production of renewable fuels by the photohydrogenation of CO2: effect of the Cu species loaded onto TiO2 photocatalysts

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Product

Resources

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Novel TiO₂/C₃N₄ Photocatalysts for Photocatalytic Reduction of CO₂ and for Photocatalytic Decomposition of N₂O

Production of renewable fuels by the photohydrogenation of CO₂: effect of the Cu species loaded onto TiO₂ photocatalysts