Anna Cybula scite author profile

Single semiconductors such as KTaO3, CdS MoS2 or their precursor solutions were combined to form novel binary and ternary semiconductor nanocomposites by the calcination or by the hydro/solvothermal mixed solutions methods, respectively. The aim of this work was to study the influence of preparation method as well as type and amount of the composite components on the surface properties and photocatalytic activity of the new semiconducting photoactive materials. We presented different binary and ternary combinations of the above semiconductors for phenol and toluene photocatalytic degradation and characterized by X-ray powder diffraction (XRD), UV-Vis diffuse reflectance spectroscopy (DRS), scanning electron microscopy (SEM), Brunauer-Emmett-Teller (BET) specific surface area and porosity. The results showed that loading MoS2 onto CdS as well as loading CdS onto KTaO3 significantly enhanced absorption properties as compared with single semiconductors. The highest photocatalytic activity in phenol degradation reaction under both UV-Vis and visible light irradiation and very good stability in toluene removal was observed for ternary hybrid obtained by calcination of KTaO3, CdS, MoS2 powders at the 10:5:1 molar ratio. Enhanced photoactivity could be

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Preparation and Characterization of Au/Pd Modified‐TiO₂ Photocatalysts for Phenol and Toluene Degradation under Visible Light—The Effect of Calcination Temperature

Cybula

Nowaczyk

Jarek

et al. 2014

Journal of Nanomaterials

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Rutile loaded with Au/Pd nanoparticles was prepared using a water-in-oil microemulsion system of water/AOT/cyclohexane followed by calcination. The effect of calcination temperature (from 350 to 700°C) on the structure of Au/Pd nanoparticles deposited at rutile matrix and the photocatalytic properties of Au/Pd-TiO2was investigated in two model reactions (toluene degradation in gas phase and phenol degradation in aqueous phase). Toluene was irradiated over Au/Pd-TiO2using light emitting diodes (LEDs,λmax⁡= 415 nm). The sample 0.5 mol% Pd/TiO2exhibited the highest activity under visible light irradiation in gas and aqueous phase reaction among all photocatalysts calcined at 350°C, while the sample modified only with gold nanoparticles showed the lowest activity. The Au/Pd-TiO2sample calcinated at 350°C possesses the highest photocatalytic activity when degrading phenol under visible light, which is 14 times higher than that of the one calcinated at 450°C. It was observed that increasing temperature from 350 to 700°C during calcination step caused segregation of metals and finally resulted in photoactivity drop.

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KTaO3-based nanocomposites for air treatment

et al. 2015

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Anna Cybula

The effect of calcination temperature on structure and photocatalytic properties of Au/Pd nanoparticles supported on TiO2

Methane formation over TiO2-based photocatalysts: Reaction pathways

Surface Properties and Photocatalytic Activity of KTaO3, CdS, MoS2 Semiconductors and Their Binary and Ternary Semiconductor Composites

Preparation and Characterization of Au/Pd Modified‐TiO₂ Photocatalysts for Phenol and Toluene Degradation under Visible Light—The Effect of Calcination Temperature

KTaO3-based nanocomposites for air treatment

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Anna Cybula

The effect of calcination temperature on structure and photocatalytic properties of Au/Pd nanoparticles supported on TiO2

Methane formation over TiO2-based photocatalysts: Reaction pathways

Surface Properties and Photocatalytic Activity of KTaO3, CdS, MoS2 Semiconductors and Their Binary and Ternary Semiconductor Composites

Preparation and Characterization of Au/Pd Modified‐TiO2 Photocatalysts for Phenol and Toluene Degradation under Visible Light—The Effect of Calcination Temperature

KTaO3-based nanocomposites for air treatment

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Product

Resources

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Preparation and Characterization of Au/Pd Modified‐TiO₂ Photocatalysts for Phenol and Toluene Degradation under Visible Light—The Effect of Calcination Temperature