Effects of alcohols as sacrificial reagents on a copper-doped sodium dititanate nanosheets/graphene oxide photocatalyst in CO 2 photoreduction
Carbon dioxide (CO ) photoreduction is an intriguing approach that converts CO into high-value substances with the assistance of a photocatalyst. Key to effective photoreduction is to promote the interaction of photo-induced holes and a sacrificial reagent (SCR), separating the holes from photoelect...
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| Veröffentlicht in: | RSC advances 2024-08, Vol.14 (38), p.27980-27989 |
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| creator | Kitjanukit, Nutkamol Neamsung, Wannisa Karawek, Apisit Lertthanaphol, Napat Chongkol, Napatr Hiramatsu, Koki Sekiguchi, Tomoya Pornsuwan, Soraya Sakurai, Takahiro Jonglertjunya, Woranart Phadungbut, Poomiwat Ichihashi, Yuichi Srinives, Sira |
| description | Carbon dioxide (CO
) photoreduction is an intriguing approach that converts CO
into high-value substances with the assistance of a photocatalyst. Key to effective photoreduction is to promote the interaction of photo-induced holes and a sacrificial reagent (SCR), separating the holes from photoelectrons and enhancing the rate of the subsequent product generation. Methanol, ethanol, isopropanol, and water SCRs were tested for their ability to assist a copper-doped sodium dititanate nanosheets/graphene oxide heterostructure (CTGN) in CO
photoreduction. The CTGN photocatalyst was suspended in a CO
-saturated aqueous solution with the assigned SCR while illuminated by a mercury lamp. Product samples from the gas and liquid phases were analyzed for targeted product compositions. Methanol SCR exhibited the best performance in facilitating CO
photoreduction, producing ethanol as the main product at a total carbon consumption (TCC) of 6544 μmol g
. The remarkable performance of methanol is attributed to the high diffusivity and excellent stability of the hydroxymethyl radical that developed during the photoreduction. The kinetics studies revealed the first and second order for the CO
depletion and product generation rates, respectively, for the alcohol SCRs. |
| doi_str_mv | 10.1039/D4RA04585H |
| format | Article |
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) photoreduction is an intriguing approach that converts CO
into high-value substances with the assistance of a photocatalyst. Key to effective photoreduction is to promote the interaction of photo-induced holes and a sacrificial reagent (SCR), separating the holes from photoelectrons and enhancing the rate of the subsequent product generation. Methanol, ethanol, isopropanol, and water SCRs were tested for their ability to assist a copper-doped sodium dititanate nanosheets/graphene oxide heterostructure (CTGN) in CO
photoreduction. The CTGN photocatalyst was suspended in a CO
-saturated aqueous solution with the assigned SCR while illuminated by a mercury lamp. Product samples from the gas and liquid phases were analyzed for targeted product compositions. Methanol SCR exhibited the best performance in facilitating CO
photoreduction, producing ethanol as the main product at a total carbon consumption (TCC) of 6544 μmol g
. The remarkable performance of methanol is attributed to the high diffusivity and excellent stability of the hydroxymethyl radical that developed during the photoreduction. The kinetics studies revealed the first and second order for the CO
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) photoreduction is an intriguing approach that converts CO
into high-value substances with the assistance of a photocatalyst. Key to effective photoreduction is to promote the interaction of photo-induced holes and a sacrificial reagent (SCR), separating the holes from photoelectrons and enhancing the rate of the subsequent product generation. Methanol, ethanol, isopropanol, and water SCRs were tested for their ability to assist a copper-doped sodium dititanate nanosheets/graphene oxide heterostructure (CTGN) in CO
photoreduction. The CTGN photocatalyst was suspended in a CO
-saturated aqueous solution with the assigned SCR while illuminated by a mercury lamp. Product samples from the gas and liquid phases were analyzed for targeted product compositions. Methanol SCR exhibited the best performance in facilitating CO
photoreduction, producing ethanol as the main product at a total carbon consumption (TCC) of 6544 μmol g
. The remarkable performance of methanol is attributed to the high diffusivity and excellent stability of the hydroxymethyl radical that developed during the photoreduction. The kinetics studies revealed the first and second order for the CO
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) photoreduction is an intriguing approach that converts CO
into high-value substances with the assistance of a photocatalyst. Key to effective photoreduction is to promote the interaction of photo-induced holes and a sacrificial reagent (SCR), separating the holes from photoelectrons and enhancing the rate of the subsequent product generation. Methanol, ethanol, isopropanol, and water SCRs were tested for their ability to assist a copper-doped sodium dititanate nanosheets/graphene oxide heterostructure (CTGN) in CO
photoreduction. The CTGN photocatalyst was suspended in a CO
-saturated aqueous solution with the assigned SCR while illuminated by a mercury lamp. Product samples from the gas and liquid phases were analyzed for targeted product compositions. Methanol SCR exhibited the best performance in facilitating CO
photoreduction, producing ethanol as the main product at a total carbon consumption (TCC) of 6544 μmol g
. The remarkable performance of methanol is attributed to the high diffusivity and excellent stability of the hydroxymethyl radical that developed during the photoreduction. The kinetics studies revealed the first and second order for the CO
depletion and product generation rates, respectively, for the alcohol SCRs.</abstract><cop>England</cop><pmid>39224628</pmid><doi>10.1039/D4RA04585H</doi><tpages>10</tpages><orcidid>https://orcid.org/0000-0002-9738-1975</orcidid><orcidid>https://orcid.org/0000-0001-7080-4432</orcidid><orcidid>https://orcid.org/0000-0002-7890-1103</orcidid></addata></record> |
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| title | Effects of alcohols as sacrificial reagents on a copper-doped sodium dititanate nanosheets/graphene oxide photocatalyst in CO 2 photoreduction |
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