Aqueous Phase Reforming over Platinum Catalysts on Doped Carbon Supports: Exploring Platinum–Heteroatom Interactions

A series of platinum catalysts supported on carbon nanofibers with various heteroatom dopings were synthesized to investigate the effect of the local platinum environment on the catalytic activity and selectivity in aqueous phase reforming (APR) of ethylene glycol (EG). Typical carbon dopants such a...

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Veröffentlicht in:ACS catalysis 2024-03, Vol.14 (6), p.4139-4154
Hauptverfasser: Pazos Urrea, Monica, Meilinger, Simon, Herold, Felix, Gopakumar, Jithin, Tusini, Enrico, De Giacinto, Andrea, Zimina, Anna, Grunwaldt, Jan-Dierk, Chen, De, Rønning, Magnus
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Sprache:eng
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Zusammenfassung:A series of platinum catalysts supported on carbon nanofibers with various heteroatom dopings were synthesized to investigate the effect of the local platinum environment on the catalytic activity and selectivity in aqueous phase reforming (APR) of ethylene glycol (EG). Typical carbon dopants such as oxygen, nitrogen, sulfur, phosphorus, and boron were chosen based on their ability to bring acidic or basic functional groups to the carbon surface. In situ X-ray absorption spectroscopy (XAS) was used to identify the platinum oxidation state and platinum species formed during APR of EG through multivariate curve resolution alternating least-squares analysis, observing differences in activity, selectivity, and platinum local environment among the catalysts. The platinum-based catalyst on the nitrogen-doped carbon support demonstrated the most favorable properties for H2 production due to high Pt dispersion and basicity (H2 site time yield 22.7 h–1). Direct Pt–N–O coordination was identified by XAS in this catalyst. The sulfur-doped catalyst presented Pt–S contributions with the lowest EG conversion rate and minimal production of the gas phase components. Boron and phosphorus-doped catalysts showed moderate activity, which was affected by low platinum dispersion on the carbon support. The phosphorus-doped catalyst showed preferential selectivity to alcohols in the liquid phase, associated with the presence of acid sites and Pt–P contributions observed under APR conditions.
ISSN:2155-5435
2155-5435
DOI:10.1021/acscatal.3c05385