Ru, Pt and Co clusters in zeolite micropores; EXAFS/FTIR/TPD characterization and catalytic behaviors in methane homologation

“…Recently there is an increasing interest to activate methane under non-oxidative conditions and convert it to higher hydrocarbons and aromatic compounds as alternative feedstocks for the petrochemical industry. 1,2 Some supported Pt and Ru catalysts yield C 2 -C 5 hydrocarbons and even benzene in the low-temperature homologation of methane [3][4][5] but continuous catalytic reaction does not proceed. It has been previously reported that on Mo-supported ZSM-5 zeolite catalysts, a considerable amount of benzene was produced at 973 K in 60-70% selectivity in the gas-phase products at lower methane conversion while only benzene and toluene have been observed as the aromatic products.…”

Remarkable non-oxidative conversion of methane to naphthalene and benzene on Co and Fe modified Mo/HZSM-5 catalysts

“…Recently there is an increasing interest to activate methane under non-oxidative conditions and convert it to higher hydrocarbons and aromatic compounds as alternative feedstocks for the petrochemical industry. 1,2 Some supported Pt and Ru catalysts yield C 2 -C 5 hydrocarbons and even benzene in the low-temperature homologation of methane [3][4][5] but continuous catalytic reaction does not proceed. It has been previously reported that on Mo-supported ZSM-5 zeolite catalysts, a considerable amount of benzene was produced at 973 K in 60-70% selectivity in the gas-phase products at lower methane conversion while only benzene and toluene have been observed as the aromatic products.…”

Remarkable non-oxidative conversion of methane to naphthalene and benzene on Co and Fe modified Mo/HZSM-5 catalysts

Metal Clusters and Nanomaterials: an Overview