Enhanced low‐temperature activity for CO₂ methanation over NiMgAl/SiC composite catalysts

Abstract: Background Carbon dioxide (CO2) methanation is an important reaction in energy and environmental fields, which aims to convert CO2 into natural gas with hydrogen (H2) from renewable sources. One of the technical bottlenecks for CO2 methanation is the lack of feasible catalysts, especially the ones with satisfactory low‐temperature activity. Results The NiMgAl/SiC composite catalyst that was derived from hydrotalcite precursor on the SiC substrate possessed enhanced low‐temperature activity and excellent long‐t… Show more

“…γ-Al2O3 [37,38], SiO2 [39][40][41], TiO2 [42], CeO2 [43,44], ZrO2 [45,46], hydrotalcite [47], various zeolites and carbon materials, including carbon nanotubes, etc. [48][49][50]. Note that acidity, structural and porous characteristics (surface area, pore volume, and their size distribution) of the support play an important role in determining the properties of catalysts for CO2 methanation [51,52].…”

Heterogeneous Catalytic Hydrogenation of Carbon Dioxide Into Hydrocarbons: Achievements and Prospects

“…γ-Al2O3 [37,38], SiO2 [39][40][41], TiO2 [42], CeO2 [43,44], ZrO2 [45,46], hydrotalcite [47], various zeolites and carbon materials, including carbon nanotubes, etc. [48][49][50]. Note that acidity, structural and porous characteristics (surface area, pore volume, and their size distribution) of the support play an important role in determining the properties of catalysts for CO2 methanation [51,52].…”

Heterogeneous Catalytic Hydrogenation of Carbon Dioxide Into Hydrocarbons: Achievements and Prospects

“…However, the reliance on precious Pt-group for the catalytic conversion of CO 2 to fossil fuels may be impractical. Wang et al 4 exemplify that conversion of CO 2 into methane in a presence of H 2 can be carried out at a remarkably low temperature using an earth-abundant NiMgAl-catalyst on a SiC substrate instead of commonly used noble metal catalysts such as Rh and Ru. The conversion rate to CH 4 at 325 ∘ C is 100% which highlights the potency of the catalyst to be utilized in conversion process at scale due to the relative simplicity of synthesis and high abundance of the catalyst's components.…”

“…However, the reliance on precious Pt‐group for the catalytic conversion of CO 2 to fossil fuels may be impractical. Wang et al . exemplify that conversion of CO 2 into methane in a presence of H 2 can be carried out at a remarkably low temperature using an earth‐abundant NiMgAl‐catalyst on a SiC substrate instead of commonly used noble metal catalysts such as Rh and Ru.…”

In Focus: Emerging leaders in future materials for energy and environmental applications

“…Under atmospheric pressure, the yield of methanol is rather low or absent [16] and thus can be ignored. However, the strongly exothermic methanation reaction is thermodynamically more favored over the mildly endothermic RWGS reaction at low reaction temperatures [17][18][19][20][21]; as such, minimizing the methanation during RWGS becomes a great challenge. Therefore, active RWGS catalysts operated at low temperatures with enhanced CO selectivity and minimized CH 4 selectivity should be developed.…”

Catalytic Reduction of CO2 to CO via Reverse Water Gas Shift Reaction: Recent Advances in the Design of Active and Selective Supported Metal Catalysts