Singgih Wibowo scite author profile

Silver (Ag) substituted ZnO thin films were successfully deposited onto glass substrates by spray coating technique. Structure, morphology, and optical properties were evaluated by X-ray diffractometer (XRD), scanning electron microscopy (SEM), and UV-Vis spectrophotometer, respectively. XRD spectra had polycrystalline wurtzite structure; SEM images showed that thin films had different surface morphology at different Ag doping concentration. From transmittance spectra, thin films transparency decreased as well as band gap energy along with increase of Ag doping concentration. Methylene blue (MB) solution was used as a pollutant in the photodegradation studies. Under UV light irradiation, the optimal Ag doping is 25%, with 83% of the decolorizing efficiencies after 3 h irradiation time and apparent constant (kapp) about 9.69 × 10−3 min−1.

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Photocatalytic activity of cobalt-doped zinc oxide thin film prepared using the spray coating technique

Sutanto

Wibowo

Hadiyanto

et al. 2017

Mater. Res. Express

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Rootlike Morphology of ZnO:Al Thin Film Deposited on Amorphous Glass Substrate by Sol-Gel Method

Sutanto

Durri

Wibowo

et al. 2016

Physics Research International

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Zinc oxide (ZnO) and aluminum doped zinc oxide (ZnO:Al) thin films have been deposited onto a glass substrate by sol-gel spray coating method at atmospheric pressure. X-ray diffractometer (XRD), scanning electron microscopy (SEM), and UV-Vis spectrophotometer have been used to characterize the films. XRD spectra indicated that all prepared thin films presented the wurtzite hexagonal structure. SEM images exhibited rootlike morphology on the surface of thin films and the shortest root diameter was about 0.219 μm. The UV-Vis absorption spectra exhibited the absorption edges that were slightly shifted to the lower wavelength. From this result, the incorporation of aluminum into the ZnO involved a slight increase in the optical band-gap of films. The optical bands of films were 3.102 eV, 3.115 eV, 3.118 eV, 3.115 eV, 3.109 eV, and 3.109 eV for ZnO, ZnO:Al 2%, ZnO:Al 4%, ZnO:Al 6%, ZnO:Al 8%, and ZnO:Al 10%, respectively. Increase of Al doping concentration in ZnO films contributed to the increase of their optical band-gap which can be explained by the Burstein-Moss effect.

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The Physical and Photocatalytic Properties of N-Doped TiO<sub>2 </sub>Polycrystalline Synthesized by a Single Step Sonochemical Method at Room Temperature

Sutanto

Hidayanto

Mukholit

et al. 2017

MSF

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Titanium dioxide (TiO2) is one of popular semiconductor materials that usually used for photocatalytic application. Recent studies show the improvement of TiO2 photocatalytic activity through nitrogen doping (N-doped TiO2). In this study, we focused on the synthesis and characterization of N-doped TiO2. Ultrasonic assisted synthesis or sonochemical method was used to prepare N-doped TiO2 polycrystalline powder under room temperature. X-ray diffractometer (XRD), and diffuse reflectance ultraviolet-visible spectrophotometer (DR-UV) were employed to evaluate physical properties of N-doped TiO2. XRD pattern exhibited that all samples have anatase crystalline phase and crystallite size decrease with increase of N dopant concentration. The absorbance spectra showed the slight shift toward higher wavelength (red shift) and from Kubelka-Munk function the band gaps were getting smaller with increase of N content. The increase of photocatalytic activity under solar radiation was achieved by N-doped TiO2 samples with highest efficiency about 81 % for 5% of N doping concentration.

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Singgih Wibowo

Photo-assisted Dry Reforming of Methane over Strontium Titanate

Ag Doped ZnO Thin Films Synthesized by Spray Coating Technique for Methylene Blue Photodegradation under UV Irradiation

Photocatalytic activity of cobalt-doped zinc oxide thin film prepared using the spray coating technique

Rootlike Morphology of ZnO:Al Thin Film Deposited on Amorphous Glass Substrate by Sol-Gel Method

The Physical and Photocatalytic Properties of N-Doped TiO<sub>2 </sub>Polycrystalline Synthesized by a Single Step Sonochemical Method at Room Temperature

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