Publication | Closed Access
Effect of acidity and ruthenium species on catalytic performance of ruthenium catalysts for acetylene hydrochlorination
70
Citations
32
References
2018
Year
Carbon-supported Ruthenium CatalystsChemical EngineeringCatalytic ApplicationEngineeringMercury-free CatalystsRuthenium CatalystsAcetylene HydrochlorinationHeterogeneous CatalysisSingle-atom CatalystSimple AmmoniaCatalysisHomogeneous CatalysisHydrogenChemistryCatalyst PreparationRuthenium SpeciesCatalytic Synthesis
Carbon-supported ruthenium catalysts are promising mercury-free catalysts for acetylene hydrochlorination, due to their high activity and relatively low price. The deactivation mechanism was identified and solved by a simple ammonia treated method.
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