Stabilization of the Active Ruthenium Oxycarbonate Phase for Low-Temperature CO2 Methanation

Handle

https://riunet.upv.es/handle/10251/206692

Cita bibliográfica

Tebar-Soler, C.; Diaconescu, VM.; Simonelli, L.; Missyul, A.; Perez-Dieste, V.; Villar-Garcia, I.; Gómez, D.... (2024). Stabilization of the Active Ruthenium Oxycarbonate Phase for Low-Temperature CO2 Methanation. ACS Catalysis. 14(6):4290-4300. https://doi.org/10.1021/acscatal.3c05679

Titulación

Resumen

[EN] Interstitial carbon-doped RuO2 catalyst with the newly reported ruthenium oxycarbonate phase is a key component for low-temperature CO2 methanation. However, a crucial factor is the stability of interstitial carbon atoms, which can cause catalyst deactivation when removed during the reaction. In this work, the stabilization mechanism of the ruthenium oxycarbonate active phase under reaction conditions is studied by combining advanced operando spectroscopic tools with catalytic studies. Three sequential processes: carbon diffusion, metal oxide reduction, and decomposition of the oxycarbonate phase and their influence by the reaction conditions, are discussed. We present how the reaction variables and catalyst composition can promote carbon diffusion, stabilizing the oxycarbonate catalytically active phase under steady-state reaction conditions and maintaining catalyst activity and stability over long operation times. In addition, insights into the reaction mechanism and a detailed analysis of the catalyst composition that identifies an adequate balance between the two phases, i.e., ruthenium oxycarbonate and ruthenium metal, are provided to ensure an optimum catalytic behavior.

Fuente

ACS Catalysis issn: 2155-5435

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