Litcius/Paper detail

Mg-incorporated sorbent for efficient removal of trace CO from H2 gas

Gina Bang, Seongmin Jin, Hyokyung Kim, Kyung-min Kim, Chang‐Ha Lee

2023Nature Communications17 citationsDOIOpen Access PDF

Abstract

Abstract Removal of trace CO impurities is an essential step in the utilization of Hydrogen as a clean energy source. While various solutions are currently employed to address this challenge, there is an urgent need to improve their efficiency. Here, we show that a bead-structured Mg, Cu, and Ce-based sorbent, Mg 13 CuCeO x , demonstrates superior removal capacity of trace CO from H 2 with high stability. The incorporation of Mg boosts sorption performance by enhancing the porous structure and Cu + surface area. Remarkably, compared to existing pelletized sorbents, Mg 13 CuCeO x exhibits 15.5 to 50 times greater equilibrium capacity under pressures below 10 Pa CO and 31 times longer breakthrough time in removing 50 ppm CO in H 2 . Energy-efficient oxidative regeneration using air at 120 °C allows its stable sorption performance over 20 cycles. Through in-situ DRIFTS analysis, we elucidate the reaction mechanism that Mg augments the surface OH groups, promoting the formation of bicarbonate and formate species. This study highlights the potential of MgCuCeO x sorbents in advancing the hydrogen economy by effectively removing trace CO from H 2 .

Topics & Concepts

SorbentSorptionFormateBicarbonateChemical engineeringChemistryHydrogenMaterials scienceEnvironmental chemistryCatalysisAdsorptionOrganic chemistryEngineeringCarbon Dioxide Capture TechnologiesCatalytic Processes in Materials ScienceIndustrial Gas Emission Control