Synergistic role of in-situ Zr-doping and cobalt oxide cocatalysts on photocatalytic bacterial inactivation and organic pollutants removal over template-free Fe2O3 nanorods

Synergistic role of in-situ Zr-doping and cobalt oxide cocatalysts on photocatalytic bacterial inactivation and organic pollutants removal over template-free Fe2O3 nanorods

Herein, we synthesized in-situ Zr-doped Fe2O3 NRs photocatalyst by successive simple hydrothermal and air quenching methods. The synergistic roles of CoOx (1 wt%) and Zr-doping on bacteria inactivation and model organic pollutants over Fe2O3 NRs photocatalyst were studied in detail. Initially, rod-l...

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Veröffentlicht in:Chemosphere (Oxford) 2023-01, Vol.310, p.136825-136825, Article 136825
Hauptverfasser: Manikandan, Velu, Anushkkaran, Periyasamy, Hwang, In-Seon, Chae, Weon-Sik, Lee, Hyun-Hwi, Choi, Sun Hee, Mahadik, Mahadeo A., Jang, Jum Suk
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Bacteria inactivation
BPA and orange II dye degradation
CoOx(1wt%)/Zr(6%)-doped Fe2O3 NRs
H2O2
Hydrothermal synthesis
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container_end_page 136825
container_issue
container_start_page 136825
container_title Chemosphere (Oxford)
container_volume 310
creator Manikandan, Velu
Anushkkaran, Periyasamy
Hwang, In-Seon
Chae, Weon-Sik
Lee, Hyun-Hwi
Choi, Sun Hee
Mahadik, Mahadeo A.
Jang, Jum Suk
description Herein, we synthesized in-situ Zr-doped Fe2O3 NRs photocatalyst by successive simple hydrothermal and air quenching methods. The synergistic roles of CoOx (1 wt%) and Zr-doping on bacteria inactivation and model organic pollutants over Fe2O3 NRs photocatalyst were studied in detail. Initially, rod-like Zr ((0–8) %)-doped Fe2O3 NRs were produced via a hydrothermal method. CoOx was loaded onto the Zr ((0–8) %)-doped Fe2O3 NRs) surface by a wet impregnation approach. The Zr-doping conditions and CoOx loadings were judiciously optimized, and a highly photoactive CoOx(1 wt%)/Zr(6%)-doped Fe2O3 NRs photocatalyst was developed. The CoOx(1 wt%) loaded Zr(6%)-doped Fe2O3 NRs photocatalyst revealed 99.4% inactivation efficiency compared with (0, 4 and 8)% Zr-doped Fe2O3 NRs, respectively. After CoOx(1 wt%)/Zr(6%)-doped Fe2O3 NRs photocatalyst treatment, Bio-TEM images of bacterial cells showed extensive morphological deviations in cell membranes, compared with the non-treated ones. Additionally, the optimum CoOx(1 wt%)/Zr(6%)-doped Fe2O3 NRs photocatalyst exhibited 99.2% BPA and 98.3% orange II dye degradation after light radiation for 3 h. This work will provide a rapid method for the development of photostable catalyst materials for bacterial disinfection and organic degradation. [Display omitted] •In-situ Zr-doped Fe2O3 NRs photocatalyst has been developed via a hydrothermal approach.•CoOx loaded onto Zr ((0–8)%)-doped Fe2O3 NRs) surface by a wet impregnation approach.•Synergistic roles of CoOx (1 wt%) and Zr-doping on bacteria inactivation and organic pollutants were studied in detail.•CoOx(1 wt%)/Zr(6%)-doped Fe2O3 NRs revealed 99.4% E-coli and S. Aureus inactivation efficiency.•Optimum photocatalyst exhibited 99.2% BPA and 98.3% orange II dye degradation within 3 h.
doi_str_mv 10.1016/j.chemosphere.2022.136825
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Additionally, the optimum CoOx(1 wt%)/Zr(6%)-doped Fe2O3 NRs photocatalyst exhibited 99.2% BPA and 98.3% orange II dye degradation after light radiation for 3 h. This work will provide a rapid method for the development of photostable catalyst materials for bacterial disinfection and organic degradation. [Display omitted] •In-situ Zr-doped Fe2O3 NRs photocatalyst has been developed via a hydrothermal approach.•CoOx loaded onto Zr ((0–8)%)-doped Fe2O3 NRs) surface by a wet impregnation approach.•Synergistic roles of CoOx (1 wt%) and Zr-doping on bacteria inactivation and organic pollutants were studied in detail.•CoOx(1 wt%)/Zr(6%)-doped Fe2O3 NRs revealed 99.4% E-coli and S. 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The synergistic roles of CoOx (1 wt%) and Zr-doping on bacteria inactivation and model organic pollutants over Fe2O3 NRs photocatalyst were studied in detail. Initially, rod-like Zr ((0–8) %)-doped Fe2O3 NRs were produced via a hydrothermal method. CoOx was loaded onto the Zr ((0–8) %)-doped Fe2O3 NRs) surface by a wet impregnation approach. The Zr-doping conditions and CoOx loadings were judiciously optimized, and a highly photoactive CoOx(1 wt%)/Zr(6%)-doped Fe2O3 NRs photocatalyst was developed. The CoOx(1 wt%) loaded Zr(6%)-doped Fe2O3 NRs photocatalyst revealed 99.4% inactivation efficiency compared with (0, 4 and 8)% Zr-doped Fe2O3 NRs, respectively. After CoOx(1 wt%)/Zr(6%)-doped Fe2O3 NRs photocatalyst treatment, Bio-TEM images of bacterial cells showed extensive morphological deviations in cell membranes, compared with the non-treated ones. Additionally, the optimum CoOx(1 wt%)/Zr(6%)-doped Fe2O3 NRs photocatalyst exhibited 99.2% BPA and 98.3% orange II dye degradation after light radiation for 3 h. This work will provide a rapid method for the development of photostable catalyst materials for bacterial disinfection and organic degradation. [Display omitted] •In-situ Zr-doped Fe2O3 NRs photocatalyst has been developed via a hydrothermal approach.•CoOx loaded onto Zr ((0–8)%)-doped Fe2O3 NRs) surface by a wet impregnation approach.•Synergistic roles of CoOx (1 wt%) and Zr-doping on bacteria inactivation and organic pollutants were studied in detail.•CoOx(1 wt%)/Zr(6%)-doped Fe2O3 NRs revealed 99.4% E-coli and S. Aureus inactivation efficiency.•Optimum photocatalyst exhibited 99.2% BPA and 98.3% orange II dye degradation within 3 h.</abstract><pub>Elsevier Ltd</pub><doi>10.1016/j.chemosphere.2022.136825</doi><tpages>1</tpages><orcidid>https://orcid.org/0000-0001-6093-7573</orcidid><orcidid>https://orcid.org/0000-0003-1844-4040</orcidid><oa>free_for_read</oa></addata></record>
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subjects Bacteria inactivation
BPA and orange II dye degradation
CoOx(1wt%)/Zr(6%)-doped Fe2O3 NRs
H2O2
Hydrothermal synthesis
title Synergistic role of in-situ Zr-doping and cobalt oxide cocatalysts on photocatalytic bacterial inactivation and organic pollutants removal over template-free Fe2O3 nanorods
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