Understanding the role of supported Rh atoms and clusters during hydroformylation and CO hydrogenation reactions with in situ / operando XAS and DRIFT spectroscopy

Sarma, Bidyut Bikash; Neukum, Dominik; Baumgarten, Lorena; Lakshmi Nilayam, Ajai Raj; Krause, Baerbel; Doronkin, Dmitry; Grunwaldt, Jan-Dierk
doi:10.1039/D4SC02907K
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000611720 1001_ $$0P:(DE-H253)PIP1094186$$aSarma, Bidyut Bikash$$b0$$eCorresponding author
000611720 245__ $$aUnderstanding the role of supported Rh atoms and clusters during hydroformylation and CO hydrogenation reactions with in situ / operando XAS and DRIFT spectroscopy
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000611720 520__ $$aSupported Rh single-atoms and clusters on CeO2, MgO, and ZrO2 were investigated as catalysts for hydroformylation of ethylene to propionaldehyde and CO hydrogenation to methanol/ethanol with in situ/operando diffuse reflectance infrared Fourier transform spectroscopy (DRIFTS) and X-ray absorption spectroscopy (XAS). Under hydroformylation reaction conditions, operando spectroscopic investigations unravel the presence of both single atoms and clusters and detected at first propanal and then methanol. We find that the formation of methanol is associated with CO hydrogenation over Rh clusters which was further confirmed under CO hydrogenation conditions at elevated pressure. The activity of catalysts synthesized via a precipitation (PP) method over various supports towards the hydroformylation reaction follows the order: Rh/ZrO2 > Rh/CeO2 > Rh/MgO. Comparing Rh/CeO2 catalysts synthesized via different methods, catalysts prepared by flame spray pyrolysis (FSP) showed catalytic activity for the hydroformylation reaction at lower temperatures (413 K), whereas catalysts prepared by wet impregnation (WI) showed the highest stability. These results not only provide fundamental insights into the atomistic level of industrially relevant reactions but also pave the way for a rational design of new catalysts in the future. 
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