In situ IR spectroscopy data and effect of the operational parameters on the photocatalytic activity of N-doped TiO2
The TiO2 photocatalyst doped with nitrogen was synthesized via a precipitation method and investigated in the oxidation of acetone vapor under UV (371 nm) and visible light (450 nm). The data were collected in a continuous-flow set-up equipped with a long-path IR gas cell for in situ analysis of oxi...
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Published in | Data in brief Vol. 24; p. 103917 |
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Abstract | The TiO2 photocatalyst doped with nitrogen was synthesized via a precipitation method and investigated in the oxidation of acetone vapor under UV (371 nm) and visible light (450 nm). The data were collected in a continuous-flow set-up equipped with a long-path IR gas cell for in situ analysis of oxidation products and evaluation of the photocatalytic activity. The IR spectra for inlet and outlet reaction mixtures and their change during the process are presented. A technique for quantitative analysis of initial substrate and oxidation product using collected IR spectra is described. The effects of main operational parameters, namely, outlet concentration of oxidizing substrate in the range of 0–25 μmol/L, humidity in the range of 10–85%, and surface density of photocatalyst in the range of 0.6–5.7 mg/cm2 were investigated, and the data received are presented. The data show the influence of these parameters on the UV and visible light photocatalytic activity of N-doped TiO2. The data is publicly available on GitHub according to the link: https://github.com/1kovalevskiy/Effect-of-the-operational-parameters. |
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AbstractList | The TiO2 photocatalyst doped with nitrogen was synthesized via a precipitation method and investigated in the oxidation of acetone vapor under UV (371 nm) and visible light (450 nm). The data were collected in a continuous-flow set-up equipped with a long-path IR gas cell for in situ analysis of oxidation products and evaluation of the photocatalytic activity. The IR spectra for inlet and outlet reaction mixtures and their change during the process are presented. A technique for quantitative analysis of initial substrate and oxidation product using collected IR spectra is described. The effects of main operational parameters, namely, outlet concentration of oxidizing substrate in the range of 0–25 μmol/L, humidity in the range of 10–85%, and surface density of photocatalyst in the range of 0.6–5.7 mg/cm2 were investigated, and the data received are presented. The data show the influence of these parameters on the UV and visible light photocatalytic activity of N-doped TiO2. The data is publicly available on GitHub according to the link: https://github.com/1kovalevskiy/Effect-of-the-operational-parameters. The TiO 2 photocatalyst doped with nitrogen was synthesized via a precipitation method and investigated in the oxidation of acetone vapor under UV (371 nm) and visible light (450 nm). The data were collected in a continuous-flow set-up equipped with a long-path IR gas cell for in situ analysis of oxidation products and evaluation of the photocatalytic activity. The IR spectra for inlet and outlet reaction mixtures and their change during the process are presented. A technique for quantitative analysis of initial substrate and oxidation product using collected IR spectra is described. The effects of main operational parameters, namely, outlet concentration of oxidizing substrate in the range of 0–25 μmol/L, humidity in the range of 10–85%, and surface density of photocatalyst in the range of 0.6–5.7 mg/cm 2 were investigated, and the data received are presented. The data show the influence of these parameters on the UV and visible light photocatalytic activity of N-doped TiO 2 . The data is publicly available on GitHub according to the link: https://github.com/1kovalevskiy/Effect-of-the-operational-parameters . The TiO2 photocatalyst doped with nitrogen was synthesized via a precipitation method and investigated in the oxidation of acetone vapor under UV (371 nm) and visible light (450 nm). The data were collected in a continuous-flow set-up equipped with a long-path IR gas cell for in situ analysis of oxidation products and evaluation of the photocatalytic activity. The IR spectra for inlet and outlet reaction mixtures and their change during the process are presented. A technique for quantitative analysis of initial substrate and oxidation product using collected IR spectra is described. The effects of main operational parameters, namely, outlet concentration of oxidizing substrate in the range of 0–25 μmol/L, humidity in the range of 10–85%, and surface density of photocatalyst in the range of 0.6–5.7 mg/cm2 were investigated, and the data received are presented. The data show the influence of these parameters on the UV and visible light photocatalytic activity of N-doped TiO2. The data is publicly available on GitHub according to the link: https://github.com/1kovalevskiy/Effect-of-the-operational-parameters. Keywords: TiO2 photocatalysis, Photocatalytic oxidation, N-doped TiO2, UV light, Visible light, FTIR spectroscopy, Continuous-flow set-up, Steady-state oxidation rate, Optimal parameters |
ArticleNumber | 103917 |
Author | Selishcheva, S.A. Selishchev, D.S. Kovalevskiy, N.S. Solovyeva, M.I. |
AuthorAffiliation | a Novosibirsk State University, Pirogova 2, Novosibirsk, 630090, Russia b Boreskov Institute of Catalysis, Lavrentieva 5, Novosibirsk, 630090, Russia |
AuthorAffiliation_xml | – name: a Novosibirsk State University, Pirogova 2, Novosibirsk, 630090, Russia – name: b Boreskov Institute of Catalysis, Lavrentieva 5, Novosibirsk, 630090, Russia |
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Cites_doi | 10.1016/j.apcata.2018.03.015 10.1016/j.apcatb.2018.04.074 10.1016/j.apcata.2010.01.030 10.1016/j.cej.2012.12.003 10.1007/s11237-015-9402-1 10.3390/molecules191221424 10.1016/j.apcatb.2017.08.020 10.1016/j.jhazmat.2018.06.035 |
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Keywords | Steady-state oxidation rate TiO2 photocatalysis Visible light Optimal parameters Continuous-flow set-up N-doped TiO2 UV light Photocatalytic oxidation FTIR spectroscopy |
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References | Selishchev, Kolobov, Bukhtiyarov, Gerasimov, Gubanov, Kozlov (bib7) 2018; 235 Selishchev, Karaseva, Uvaev, Kozlov, Parmon (bib3) 2013; 224 Kolinko, Selishchev, Kozlov (bib9) 2015; 51 (bib5) 2018 Selishchev, Kolinko, Kozlov (bib4) 2010; 377 Selishchev, Kozlov (bib2) 2014; 19 Kovalevskiy, Lyulyukin, Selishchev, Kozlov (bib8) 2018; 358 Filippov, Svintsitskiy, Chetyrin, Prosvirin, Selishchev, Kozlov (bib1) 2018; 558 Lyulyukin, Kolinko, Selishchev, Kozlov (bib6) 2018; 220 Selishchev (10.1016/j.dib.2019.103917_bib3) 2013; 224 Selishchev (10.1016/j.dib.2019.103917_bib4) 2010; 377 Kolinko (10.1016/j.dib.2019.103917_bib9) 2015; 51 (10.1016/j.dib.2019.103917_bib5) 2018 Kovalevskiy (10.1016/j.dib.2019.103917_bib8) 2018; 358 Selishchev (10.1016/j.dib.2019.103917_bib2) 2014; 19 Filippov (10.1016/j.dib.2019.103917_bib1) 2018; 558 Selishchev (10.1016/j.dib.2019.103917_bib7) 2018; 235 Lyulyukin (10.1016/j.dib.2019.103917_bib6) 2018; 220 |
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SubjectTerms | Chemical Engineering Continuous-flow set-up FTIR spectroscopy N-doped TiO2 Optimal parameters Photocatalytic oxidation Steady-state oxidation rate TiO2 photocatalysis UV light Visible light |
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Title | In situ IR spectroscopy data and effect of the operational parameters on the photocatalytic activity of N-doped TiO2 |
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