Methane oxidative carbonylation catalyzed by rhodium chalcogen halides over carbon supports

“…Rh‐doped FePO 4 catalyst was found to be active towards directly converting methane to methyl acetate in a single step via the reaction with N 2 O and CO, and the dual site containing Rh(III) species and FePO 4 in close proximity was proposed to account for methyl acetate formation ,. In the gas phase methane oxidative carbonylation, Rh‐based catalysts such as rhodium chalcogen halides and rhodium chalcogenides over silica supports exhibited high activity for the formation of oxygenates (methanol, methyl acetate and acetic acid) ,…”

Rh‐Based Nanocatalysts for Heterogeneous Reactions

“…Rh‐doped FePO 4 catalyst was found to be active towards directly converting methane to methyl acetate in a single step via the reaction with N 2 O and CO, and the dual site containing Rh(III) species and FePO 4 in close proximity was proposed to account for methyl acetate formation ,. In the gas phase methane oxidative carbonylation, Rh‐based catalysts such as rhodium chalcogen halides and rhodium chalcogenides over silica supports exhibited high activity for the formation of oxygenates (methanol, methyl acetate and acetic acid) ,…”

Rh‐Based Nanocatalysts for Heterogeneous Reactions

“…Our group has used poly(hydroxyethyl methacrylate) (pHEMA) as the solid carrier because it contains abundant hydroxyls, which are highly polar and active. The salen monomer was incorporated onto pHEMA by a coordinate bond similar to that reported in the literature from other methods including non-covalent immobilization, inorganic graft, and copolymerization [15].…”

A Poly(hydroxyethyl methacrylate)-Immobilized Chiral Manganese(III)salen Catalyst for Asymmetric Epoxidation of α-Methylstyrene

Nonenvironmental Industrial Applications of Activated Carbon Adsorption