Fabrication of 3D mesoporous networks of assembled CoO nanoparticles for efficient photocatalytic reduction of aqueous Cr(VI)
Synthesis of high-performance and cyclic stable photocatalysts has been remaining a significant challenge. In this work, we report the synthesis of high-surface-area mesoporous networks of CoO NPs through a polymer-templating self-assembly method and demonstrate their potential application in the re...
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sg-ntu-dr.10356-1383672020-05-05T02:55:06Z Fabrication of 3D mesoporous networks of assembled CoO nanoparticles for efficient photocatalytic reduction of aqueous Cr(VI) Velegraki, Georgia Miao, Jianwei Drivas, Charalampos Liu, Bin Kennou, Stella Armatas, Gerasimos S. School of Chemical and Biomedical Engineering Science::Chemistry Cr(VI) Reduction CoO Nanoparticles Synthesis of high-performance and cyclic stable photocatalysts has been remaining a significant challenge. In this work, we report the synthesis of high-surface-area mesoporous networks of CoO NPs through a polymer-templating self-assembly method and demonstrate their potential application in the reductive detoxification of aqueous Cr(VI) solutions under UV and visible light irradiation. Electron microscopy images and N2 adsorption measurements corroborate the presence of a porous network of interconnected CoO NPs (ca. 18 nm in size) with large internal surface area (up to 134 m2 g−1) and narrow pore-size distribution (ca. 4.4–4.8 nm in diameter). Conjunction of optical absorption and electrochemical impendence spectroscopy results indicates that the band edge positions of constituent CoO NPs meet the electric potential requirements for reducing Cr(VI) and splitting water to oxygen. We show that mesoporous assemblies of hexagonal CoO NPs effectively overcome the kinetic barriers for the oxidation reaction, manifesting a remarkably photocatalytic Cr(VI) reduction activity at acidic pH with an apparent quantum yield (AQY) of 1.61% and 0.17% at wavelengths of 375 and 440 nm, respectively. We demonstrate that, apart from oxygen evolution reaction, photoconversion of harmful Cr(VI) into non-toxic Cr(III) involves also a hydroxyl radical-mediated oxidation process by intercepting oxidation products with on-line mass spectrometry and fluorescence spectroscopy in control catalytic experiments. 2020-05-05T02:55:05Z 2020-05-05T02:55:05Z 2017 Journal Article Velegraki, G., Miao, J., Drivas, C., Liu, B., Kennou, S., & Armatas, G. S. (2018). Fabrication of 3D mesoporous networks of assembled CoO nanoparticles for efficient photocatalytic reduction of aqueous Cr(VI). Applied Catalysis B: Environmental, 221, 635-644. doi:10.1016/j.apcatb.2017.09.064 0926-3373 https://hdl.handle.net/10356/138367 10.1016/j.apcatb.2017.09.064 2-s2.0-85030109507 221 635 644 en Applied Catalysis B: Environmental © 2017 Elsevier B.V. All rights reserved. This paper was published in Applied Catalysis B: Environmental and is made available with permission of Elsevier B.V. |
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Science::Chemistry Cr(VI) Reduction CoO Nanoparticles |
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Science::Chemistry Cr(VI) Reduction CoO Nanoparticles Velegraki, Georgia Miao, Jianwei Drivas, Charalampos Liu, Bin Kennou, Stella Armatas, Gerasimos S. Fabrication of 3D mesoporous networks of assembled CoO nanoparticles for efficient photocatalytic reduction of aqueous Cr(VI) |
| description |
Synthesis of high-performance and cyclic stable photocatalysts has been remaining a significant challenge. In this work, we report the synthesis of high-surface-area mesoporous networks of CoO NPs through a polymer-templating self-assembly method and demonstrate their potential application in the reductive detoxification of aqueous Cr(VI) solutions under UV and visible light irradiation. Electron microscopy images and N2 adsorption measurements corroborate the presence of a porous network of interconnected CoO NPs (ca. 18 nm in size) with large internal surface area (up to 134 m2 g−1) and narrow pore-size distribution (ca. 4.4–4.8 nm in diameter). Conjunction of optical absorption and electrochemical impendence spectroscopy results indicates that the band edge positions of constituent CoO NPs meet the electric potential requirements for reducing Cr(VI) and splitting water to oxygen. We show that mesoporous assemblies of hexagonal CoO NPs effectively overcome the kinetic barriers for the oxidation reaction, manifesting a remarkably photocatalytic Cr(VI) reduction activity at acidic pH with an apparent quantum yield (AQY) of 1.61% and 0.17% at wavelengths of 375 and 440 nm, respectively. We demonstrate that, apart from oxygen evolution reaction, photoconversion of harmful Cr(VI) into non-toxic Cr(III) involves also a hydroxyl radical-mediated oxidation process by intercepting oxidation products with on-line mass spectrometry and fluorescence spectroscopy in control catalytic experiments. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Velegraki, Georgia Miao, Jianwei Drivas, Charalampos Liu, Bin Kennou, Stella Armatas, Gerasimos S. |
| format |
Article |
| author |
Velegraki, Georgia Miao, Jianwei Drivas, Charalampos Liu, Bin Kennou, Stella Armatas, Gerasimos S. |
| author_sort |
Velegraki, Georgia |
| title |
Fabrication of 3D mesoporous networks of assembled CoO nanoparticles for efficient photocatalytic reduction of aqueous Cr(VI) |
| title_short |
Fabrication of 3D mesoporous networks of assembled CoO nanoparticles for efficient photocatalytic reduction of aqueous Cr(VI) |
| title_full |
Fabrication of 3D mesoporous networks of assembled CoO nanoparticles for efficient photocatalytic reduction of aqueous Cr(VI) |
| title_fullStr |
Fabrication of 3D mesoporous networks of assembled CoO nanoparticles for efficient photocatalytic reduction of aqueous Cr(VI) |
| title_full_unstemmed |
Fabrication of 3D mesoporous networks of assembled CoO nanoparticles for efficient photocatalytic reduction of aqueous Cr(VI) |
| title_sort |
fabrication of 3d mesoporous networks of assembled coo nanoparticles for efficient photocatalytic reduction of aqueous cr(vi) |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/138367 |
| _version_ |
1681059670404366336 |