H$_2$ production from formic acid over highly stable and efficient Cu-Fe-O spinel based photocatalysts under flow, visible-light and at room temperature conditions - Laboratoire catalyse et spectrochimie Accéder directement au contenu
Article Dans Une Revue Applied Materials Today Année : 2023

H$_2$ production from formic acid over highly stable and efficient Cu-Fe-O spinel based photocatalysts under flow, visible-light and at room temperature conditions

Résumé

Catalytic dehydrogenation of liquid organic hydrogen carriers (LOHC), such as formic acid (FAc), is considered as a promising approach to safely store and easily transport hydrogen at ambient conditions. Generally, this process suffers from low activity, low reaction selectivity, low stability of the catalysts and/or the use of noble-metal based catalysts. In this study, a highly efficient CuFe$_2$O$_4$-based photocatalyst is reported for the photocatalytic dehydrogenation of FAc under visible light at room temperature and under continuous gas flow. The effects of various factors such as composition of the catalysts and thermal pretreatment are investigated along a series of samples. The synthesis, dispersion, oxidation states, photo-electrochemical properties and performances of these materials were investigated in details. A synergetic effect, with relatively high dehydrogenation selectivity (77% with 6.6 mmol.g$^{-1}$ .h$^{-1}$ of H$_2$ production) is obtained on the copper-rich samples without any significant deactivation for two cycles of 20h/cycle. This study opens up a new route to design new Cu-based photocatalysts as cost-effective materials for visible-light driven photocatalytic dehydrogenation of FAc at room temperature.
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Dates et versions

hal-03985073 , version 1 (13-02-2023)

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Hanen Abdelli, Houeida Issa Hamoud, Juan Pablo Bolletta, Arnold Paecklar, Afrah Bardaoui, et al.. H$_2$ production from formic acid over highly stable and efficient Cu-Fe-O spinel based photocatalysts under flow, visible-light and at room temperature conditions. Applied Materials Today, 2023, 31, pp.101771. ⟨10.1016/j.apmt.2023.101771⟩. ⟨hal-03985073⟩
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