Publication | Closed Access
Enhancing catalytic activity and stability for CO<sub>2</sub> methanation on Ni@MOF-5 via control of active species dispersion
250
Citations
24
References
2014
Year
Materials ScienceInorganic ChemistryChemical EngineeringCatalytic ApplicationEngineeringIndustrial CatalysisHeterogeneous CatalysisActive Species DispersionCatalyst RecyclingCo2 MethanationCatalysisCatalytic ActivityChemistryHydrogenCatalyst PreparationCatalytic ProcessHigh StabilityUnexpected Activity
A novel, highly active catalyst Ni@MOF-5 showed unexpected activity at low temperature for CO2 methanation. The characterization results indicated that Ni was uniformly and highly dispersed over MOF-5. This catalyst showed high stability and almost no deactivation in long term stability tests up to 100 h.
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