Decomposition of nonionic surfactant on a nitrogen-doped photocatalyst under visible-light irradiation

A visible-light-active N-containing TiO2 photocatalysts were prepared from crude amorphous titanium dioxide by heating amorphous TiO2 in gaseous NH3 atmosphere. The calcination temperatures ranged from 200 to 1000°C, respectively. UV–vis/DR spectra indicated that the N-doped catalysts prepared at te...

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Published inApplied catalysis. B, Environmental Vol. 55; no. 3; pp. 195 - 200
Main Authors Mozia, Sylwia, Tomaszewska, Maria, Kosowska, Beata, Grzmil, Barbara, Morawski, Antoni W., Kałucki, Kazimierz
Format Journal Article
LanguageEnglish
Published Elsevier B.V 10.02.2005
Subjects
Ammonia
FT-IR study
Nitrogen doping
Nonionic surfactant
Titanium dioxide
Visible-light-active photocatalyst
Ammonia
Visible-light-active photocatalyst
Nitrogen doping
FT-IR study
Titanium dioxide
Nonionic surfactant
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Abstract A visible-light-active N-containing TiO2 photocatalysts were prepared from crude amorphous titanium dioxide by heating amorphous TiO2 in gaseous NH3 atmosphere. The calcination temperatures ranged from 200 to 1000°C, respectively. UV–vis/DR spectra indicated that the N-doped catalysts prepared at temperatures <400°C absorbed only UV light (Eg=3.3eV), whereas samples prepared at temperatures ≥400°C absorbed both, UV (Eg=3.10–3.31eV) and vis (Eg=2.54–2.66eV) light. The chemical structure of the modified photocatalysts was investigated using FT-IR/DRS spectroscopy. All the spectra exhibited bands indicating nitrogen presence in the catalysts structure. The photocatalytic activity of the investigated catalysts was determined on a basis of a decomposition rate of nonionic surfactant (polyoxyethylenenonylphenol ether, Rokafenol N9). The most photoactive catalysts were those calcinated at 300, 500 and 600°C. For the catalysts heated at temperatures of 500 and 600°C Rokafenol N9 removal was equal to 61 and 60%, whereas TOC removal amounted to 40 and 35%, respectively. In case of the catalyst calcinated at 300°C surfactant was degraded by 54% and TOC was removed by 35%. The phase composition of the most active photocatalysts was as follows: (a) catalyst calcinated at 300°C—49.1% of amorphous TiO2, 47.4% of anatase and 3.5% of rutile; (b) catalyst calcinated at 500°C—7.1% of amorphous TiO2, 89.4% of anatase and 3.5% of rutile; (c) catalyst calcinated at 600°C—94.2% of anatase and 5.8% of rutile.
AbstractList A visible-light-active N-containing TiO2 photocatalysts were prepared from crude amorphous titanium dioxide by heating amorphous TiO2 in gaseous NH3 atmosphere. The calcination temperatures ranged from 200 to 1000°C, respectively. UV–vis/DR spectra indicated that the N-doped catalysts prepared at temperatures <400°C absorbed only UV light (Eg=3.3eV), whereas samples prepared at temperatures ≥400°C absorbed both, UV (Eg=3.10–3.31eV) and vis (Eg=2.54–2.66eV) light. The chemical structure of the modified photocatalysts was investigated using FT-IR/DRS spectroscopy. All the spectra exhibited bands indicating nitrogen presence in the catalysts structure. The photocatalytic activity of the investigated catalysts was determined on a basis of a decomposition rate of nonionic surfactant (polyoxyethylenenonylphenol ether, Rokafenol N9). The most photoactive catalysts were those calcinated at 300, 500 and 600°C. For the catalysts heated at temperatures of 500 and 600°C Rokafenol N9 removal was equal to 61 and 60%, whereas TOC removal amounted to 40 and 35%, respectively. In case of the catalyst calcinated at 300°C surfactant was degraded by 54% and TOC was removed by 35%. The phase composition of the most active photocatalysts was as follows: (a) catalyst calcinated at 300°C—49.1% of amorphous TiO2, 47.4% of anatase and 3.5% of rutile; (b) catalyst calcinated at 500°C—7.1% of amorphous TiO2, 89.4% of anatase and 3.5% of rutile; (c) catalyst calcinated at 600°C—94.2% of anatase and 5.8% of rutile.
Scientists prepared samples of visible-light-active N-containing TiO sub(2) photocatalysts from crude amorphous titanium dioxide by heating the TiO sub(2) in a gaseous NH sub(3) atmosphere. These processes were implemented for calcination temperatures in the range from 200-1000 degree C. Findings from analyses of UV-vis/DR spectra showed that the N-doped catalysts generated at temperatures of less than 400 degree C absorbed only UV light. However, samples generated at temperatures of greater than 400 degree C proved capable of absorbing both UV and visible light. Researchers utilized FT-IR/DRS spectroscopy techniques to characterize the chemical structure of the modified photocatalysts. Data that indicated the presence of nitrogen in the catalyst structure are reviewed.
A visible-light-active N-containing TiO2 photocatalysts were prepared from crude amorphous titanium dioxide by heating amorphous TiO2 in gaseous NH3 atmosphere. The calcination temperatures ranged from 200 to 1000 deg C, respectively. UV-vis/DR spectra indicated that the N-doped catalysts prepared at temperatures < 400 deg C absorbed only UV light (Eg=3.3eV), whereas samples prepared at temperatures > =400 deg C absorbed both, UV (Eg=3.10-3.31eV) and vis (Eg=2.54-2.66eV) light. The chemical structure of the modified photocatalysts was investigated using FT-IR/DRS spectroscopy. All the spectra exhibited bands indicating nitrogen presence in the catalysts structure. The photocatalytic activity of the investigated catalysts was determined on a basis of a decomposition rate of nonionic surfactant (polyoxyethylenenonylphenol ether, Rokafenol N9). The most photoactive catalysts were those calcinated at 300, 500 and 600 deg C. For the catalysts heated at temperatures of 500 and 600 deg C Rokafenol N9 removal was equal to 61 and 60%, whereas TOC removal amounted to 40 and 35%, respectively. In case of the catalyst calcinated at 300 deg C surfactant was degraded by 54% and TOC was removed by 35%. The phase composition of the most active photocatalysts was as follows: (a) catalyst calcinated at 300 deg C-49.1% of amorphous TiO2, 47.4% of anatase and 3.5% of rutile; (b) catalyst calcinated at 500 deg C-7.1% of amorphous TiO2, 89.4% of anatase and 3.5% of rutile; (c) catalyst calcinated at 600 deg C-94.2% of anatase and 5.8% of rutile.
Author Kosowska, Beata
Morawski, Antoni W.
Kałucki, Kazimierz
Grzmil, Barbara
Mozia, Sylwia
Tomaszewska, Maria
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Issue 3
Keywords Ammonia
Visible-light-active photocatalyst
Nitrogen doping
FT-IR study
Titanium dioxide
Nonionic surfactant
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Snippet A visible-light-active N-containing TiO2 photocatalysts were prepared from crude amorphous titanium dioxide by heating amorphous TiO2 in gaseous NH3...
Scientists prepared samples of visible-light-active N-containing TiO sub(2) photocatalysts from crude amorphous titanium dioxide by heating the TiO sub(2) in a...
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SubjectTerms Ammonia
FT-IR study
Nitrogen doping
Nonionic surfactant
Titanium dioxide
Visible-light-active photocatalyst
Title Decomposition of nonionic surfactant on a nitrogen-doped photocatalyst under visible-light irradiation
URI https://dx.doi.org/10.1016/j.apcatb.2004.09.019
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