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Sustainable synthesis of N-doped carbon to stabilize Ru species for CO2 hydrogenation to formic acid

Kyung Rok Lee, Arsalan Haider, Kwangho Park, Sunghee Ahn, Kwang‐Deog Jung

2024Journal of CO2 Utilization17 citationsDOIOpen Access PDF

Abstract

In this study, we developed nitrogen-doped carbon supporting materials from biomass-derived fertilizers, offering a sustainable and eco-friendly approach to heterogeneous catalysis for CO2 hydrogenation. Three types of fertilizers (AA50, AA80, and FV), derived from different biomass sources, were evaluated there potential to prepare the N-doped carbon structure. The synthesis of fertilizer-based supporting materials resulted in an abundant amount and a specific structure of doped nitrogen, essential for immobilizing atomically dispersed Ru catalysts during CO2 hydrogenation. The catalytic performance of the Ru catalysts supported on optimized fertilizer-derived materials exhibited a turnover number of 2748 over two hours and maintaining 98 % stability across five recycling tests. Analysis of spent catalysts showed that our fertilizer-based supports effectively prevented the sintering and leaching of the Ru catalysts. Moreover, the capability for industrial application was validated through a continuous flow reactor test, achieving an average formate productivity of 697 mmol•gcat−1h−1 over 100 hours. These results highlight the synthesized Ru catalyst on fertilizer-derived carbon material as a promising solution for eco-friendly CO2 hydrogenation to formic acid.

Topics & Concepts

Formic acidCatalysisLeaching (pedology)SinteringFertilizerCarbon fibersMaterials scienceFormateEnvironmentally friendlyBiomass (ecology)NitrogenChemistryChemical engineeringNuclear chemistryInorganic chemistryOrganic chemistryMetallurgyEnvironmental scienceComposite materialAgronomyComposite numberSoil waterBiologySoil scienceEcologyEngineeringCarbon dioxide utilization in catalysisCO2 Reduction Techniques and CatalystsCatalysts for Methane Reforming
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