Flexible Ag-AgCl/TiO2/cellulose biocomposite film for solar photocatalytic degradation of VOCs

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Mouheb Sboui
  • Youssef O. Al-Ghamdi
  • Khalid A. Alamry
  • Mahmoud A. Hussein
  • Mohamed Faouzi Nsib
  • Gui Lu
  • Meenakshisundaram Swaminathan
  • Detlef W. Bahnemann
  • Jia Hong Pan

Organisationseinheiten

Externe Organisationen

  • North China Electric Power University (NCEPU)
  • Guangxi University
  • Majmaah University (MU)
  • King Abdulaziz University
  • Kalasalingam University
  • Staatliche Universität Sankt Petersburg
  • Centre of Research on Microelectronics and Nanotechnology (CRMT)
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Aufsatznummer120374
Seitenumfang10
FachzeitschriftChemical engineering science
Jahrgang298
Frühes Online-Datum12 Juni 2024
PublikationsstatusVeröffentlicht - 5 Okt. 2024

Abstract

Photocatalyst immobilization on biopolymers presents a promising avenue for air purification, yet achieving efficient immobilization and purification methods remains a challenge. In this study, we develop a novel, straightforward sequential coating technique to fabricate cellulose film embedded with uniformly dispersed TiO2 submicrospheres and Ag-AgCl nanoparticles (NPs), tailored for effective indoor air purification under sunlight exposure. The obtained Ag-AgCl/TiO2/cellulose film exhibit remarkable photocatalytic prowess in degrading various volatile organic compounds (VOCs, including ethanol, 1-propanol, 1-butanol, propylamine, and propanethiol) under simulated sunlight, owing to the enhanced separation of charge carriers facilitated by the presence of plasmonic Ag-AgCl NPs. Notably, the nature of the functional groups and the carbon atom count within the VOCs molecular structures exert significant influence on the overall photocatalytic performance. Furthermore, our investigation into the reusability of this biocomposite film confirms its durability, particularly in mineralizing alcoholic compounds during VOC oxidization, and the deactivation primarily occurs with VOCs containing heteroatoms that can be residual on biocomposite surface. This study represents a significant step towards practical applications of biocomposite films with efficient photocatalytic activities for real-world air purification and environmental remediation.

ASJC Scopus Sachgebiete

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Flexible Ag-AgCl/TiO2/cellulose biocomposite film for solar photocatalytic degradation of VOCs. / Sboui, Mouheb; Al-Ghamdi, Youssef O.; Alamry, Khalid A. et al.
in: Chemical engineering science, Jahrgang 298, 120374, 05.10.2024.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Sboui, M, Al-Ghamdi, YO, Alamry, KA, Hussein, MA, Nsib, MF, Lu, G, Swaminathan, M, Bahnemann, DW & Pan, JH 2024, 'Flexible Ag-AgCl/TiO2/cellulose biocomposite film for solar photocatalytic degradation of VOCs', Chemical engineering science, Jg. 298, 120374. https://doi.org/10.1016/j.ces.2024.120374
Sboui, M., Al-Ghamdi, Y. O., Alamry, K. A., Hussein, M. A., Nsib, M. F., Lu, G., Swaminathan, M., Bahnemann, D. W., & Pan, J. H. (2024). Flexible Ag-AgCl/TiO2/cellulose biocomposite film for solar photocatalytic degradation of VOCs. Chemical engineering science, 298, Artikel 120374. https://doi.org/10.1016/j.ces.2024.120374
Sboui M, Al-Ghamdi YO, Alamry KA, Hussein MA, Nsib MF, Lu G et al. Flexible Ag-AgCl/TiO2/cellulose biocomposite film for solar photocatalytic degradation of VOCs. Chemical engineering science. 2024 Okt 5;298:120374. Epub 2024 Jun 12. doi: 10.1016/j.ces.2024.120374
Sboui, Mouheb ; Al-Ghamdi, Youssef O. ; Alamry, Khalid A. et al. / Flexible Ag-AgCl/TiO2/cellulose biocomposite film for solar photocatalytic degradation of VOCs. in: Chemical engineering science. 2024 ; Jahrgang 298.
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abstract = "Photocatalyst immobilization on biopolymers presents a promising avenue for air purification, yet achieving efficient immobilization and purification methods remains a challenge. In this study, we develop a novel, straightforward sequential coating technique to fabricate cellulose film embedded with uniformly dispersed TiO2 submicrospheres and Ag-AgCl nanoparticles (NPs), tailored for effective indoor air purification under sunlight exposure. The obtained Ag-AgCl/TiO2/cellulose film exhibit remarkable photocatalytic prowess in degrading various volatile organic compounds (VOCs, including ethanol, 1-propanol, 1-butanol, propylamine, and propanethiol) under simulated sunlight, owing to the enhanced separation of charge carriers facilitated by the presence of plasmonic Ag-AgCl NPs. Notably, the nature of the functional groups and the carbon atom count within the VOCs molecular structures exert significant influence on the overall photocatalytic performance. Furthermore, our investigation into the reusability of this biocomposite film confirms its durability, particularly in mineralizing alcoholic compounds during VOC oxidization, and the deactivation primarily occurs with VOCs containing heteroatoms that can be residual on biocomposite surface. This study represents a significant step towards practical applications of biocomposite films with efficient photocatalytic activities for real-world air purification and environmental remediation.",
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AU - Sboui, Mouheb

AU - Al-Ghamdi, Youssef O.

AU - Alamry, Khalid A.

AU - Hussein, Mahmoud A.

AU - Nsib, Mohamed Faouzi

AU - Lu, Gui

AU - Swaminathan, Meenakshisundaram

AU - Bahnemann, Detlef W.

AU - Pan, Jia Hong

N1 - Publisher Copyright: © 2024 Elsevier Ltd

PY - 2024/10/5

Y1 - 2024/10/5

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AB - Photocatalyst immobilization on biopolymers presents a promising avenue for air purification, yet achieving efficient immobilization and purification methods remains a challenge. In this study, we develop a novel, straightforward sequential coating technique to fabricate cellulose film embedded with uniformly dispersed TiO2 submicrospheres and Ag-AgCl nanoparticles (NPs), tailored for effective indoor air purification under sunlight exposure. The obtained Ag-AgCl/TiO2/cellulose film exhibit remarkable photocatalytic prowess in degrading various volatile organic compounds (VOCs, including ethanol, 1-propanol, 1-butanol, propylamine, and propanethiol) under simulated sunlight, owing to the enhanced separation of charge carriers facilitated by the presence of plasmonic Ag-AgCl NPs. Notably, the nature of the functional groups and the carbon atom count within the VOCs molecular structures exert significant influence on the overall photocatalytic performance. Furthermore, our investigation into the reusability of this biocomposite film confirms its durability, particularly in mineralizing alcoholic compounds during VOC oxidization, and the deactivation primarily occurs with VOCs containing heteroatoms that can be residual on biocomposite surface. This study represents a significant step towards practical applications of biocomposite films with efficient photocatalytic activities for real-world air purification and environmental remediation.

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