Metal oxide nanoparticles embedded in porous carbon for sulfur absorption under hydrothermal conditions

Abstract: MOx (M = Zn, Cu, Mn, Fe, Ce) nanoparticles (NPs) embedded in porous C with uniform diameter and dispersion were synthesized, with potential application as S-absorbents to protect catalysts from S-poisoning in catalytic hydrothermal gasification (cHTG) of biomass. S-absorption performance of MOx/C was evaluated by reacting the materials with diethyl disulfide at HTG conditions (450 °C, 30 MPa, 15 min). Their S-absorption capacity followed the order CuOx/C > CeOx/C ≈ ZnO/C > MnOx/C > FeOx/C. S was absor… Show more

“…Sorbent materials can adsorb heteroatoms, such as sulfur or chlorine, which helps to overcome issues related to salt precipitation and catalyst poisoning. Metal oxides are good candidates as catalysts or sorbents in scH 2 O [15,16]. Their functional properties, such as their activity, selectivity, and stability under supercritical conditions, might be greatly affected by the synthesis method.…”

Continuous Supercritical Water Impregnation Method for the Preparation of Metal Oxide on Activated Carbon Composite Materials

“…Sorbent materials can adsorb heteroatoms, such as sulfur or chlorine, which helps to overcome issues related to salt precipitation and catalyst poisoning. Metal oxides are good candidates as catalysts or sorbents in scH 2 O [15,16]. Their functional properties, such as their activity, selectivity, and stability under supercritical conditions, might be greatly affected by the synthesis method.…”

Continuous Supercritical Water Impregnation Method for the Preparation of Metal Oxide on Activated Carbon Composite Materials