Photoconversion of 2-Propanol on Rutile Titania: A Combined Liquid-Phase and Surface Science Study

Kraeuter J, Mohrhusen L, Waidhas F, Brummel O, Libuda J, Al-Shamery K (2021)

Publication Type: Journal article

Publication year: 2021

Journal

Journal of Physical Chemistry C American Chemical Society

Abstract

A fundamental reaction in industries for producing aldehydes and ketones is the partial oxidation of alcohols. As a model reaction, we investigated the photo-oxidation of 2-propanol on rutile titania, which is a promising chemically nontoxic photocatalyst. Photochemical infrared reflection absorption spectroscopy (PC-IRRAS) was used to study the reaction on powder catalysts in the liquid phase (neat liquid and dissolved in dichloromethane). We compare these results with polarized Fourier transform (FT)-IRRAS and temperature-programmed desorption (TPD) experiments on rutile TiO2(110) single crystals in ultrahigh vacuum (UHV). Our in situ liquid-phase experiments showed that 2-propanol converts into acetone on rutile powders, which is in accordance with previous ex situ studies. Mass transport limitations are the key to avoid total oxidation. However, the yield of acetone is limited. We identified water formed as a byproduct and suspected that water might block the active sites. To elucidate possible reaction mechanisms, further experiments were performed on rutile TiO2(110) single crystals in the presence and absence of oxygen and UV irradiation under UHV conditions. Here, we obtained further insights into the elementary steps of the different 2-propanol reactions. We demonstrated that acetone desorbs from a diolate species, which forms in the presence of oxygen under UV irradiation at temperatures around 200 K. Furthermore, propane was identified for the first time as a new thermally activated deoxygenation product besides the simultaneously formed, formally reported, propene. Propene formation is quenched by UV irradiation. Active site blocking by water is confirmed by TPD and polarized FT-IRRAS measurements.

Authors with CRIS profile

Fabian Waidhas Lehrstuhl für Katalytische Grenzflächenforschung Olaf Brummel Lehrstuhl für Katalytische Grenzflächenforschung Jörg Libuda Lehrstuhl für Katalytische Grenzflächenforschung

Involved external institutions

Carl von Ossietzky Universität Oldenburg

Germany (DE)

How to cite

APA:

Kraeuter, J., Mohrhusen, L., Waidhas, F., Brummel, O., Libuda, J., & Al-Shamery, K. (2021). Photoconversion of 2-Propanol on Rutile Titania: A Combined Liquid-Phase and Surface Science Study. Journal of Physical Chemistry C. https://dx.doi.org/10.1021/acs.jpcc.0c10734

MLA:

Kraeuter, Jessica, et al. "Photoconversion of 2-Propanol on Rutile Titania: A Combined Liquid-Phase and Surface Science Study." Journal of Physical Chemistry C (2021).

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