Alkali modified P25 with enhanced CO2 adsorption for CO2 photoreduction

Alkali modified P25 with enhanced CO2 adsorption for CO2 photoreduction

To improve the CO2 adsorption on the photocatalyst, which is an essential step for CO2 photoreduction, solid solutions were fabricated using a facile calcination treatment at 900 °C. Using various alkalis, namely NaOH, Na2CO3, KOH, K2CO3, the resulted samples presented a much higher CO2 adsorption c...

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Veröffentlicht in:RSC advances 2020-07, Vol.10 (47), p.27989-27994
Hauptverfasser: Tan, Jeannie Z Y, Gavrielides, Stelios, Xu, Hao R, Thompson, Warren A, M Mercedes Maroto-Valer
Format: Artikel
Sprache:eng
Schlagworte:
Adsorption
Alkalies
Basicity
Carbon dioxide
Chemistry
Light irradiation
Potassium carbonate
Sodium carbonate
Sodium hydroxide
Solid solutions
Titanium dioxide
Ultraviolet radiation
Workstations
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Zusammenfassung:To improve the CO2 adsorption on the photocatalyst, which is an essential step for CO2 photoreduction, solid solutions were fabricated using a facile calcination treatment at 900 °C. Using various alkalis, namely NaOH, Na2CO3, KOH, K2CO3, the resulted samples presented a much higher CO2 adsorption capacity, which was measured with the pulse injection of CO2 on the temperature programmed desorption workstation, compared to the pristine Evonik P25. As a result, all of the fabricated solid solutions produced higer yield of CO under UV light irradiation due to the increased basicity of the solid solutions even though they possessed only the rutile polymorph of TiO2. The highest CO2 adsorption capacity under UV irradiation was observed in the sample treated with NaOH, which contained the highest amount of isolated hydroxyls, as shown in the FTIR studies.
ISSN:2046-2069
DOI:10.1039/d0ra05010e