Direct Catalytic Oxidation of Low-Concentration Methane to Methanol in One Step on Ni-Promoted BiOCl Catalysts

Abstract: The direct oxidation of low-concentration methane (CH 4 ) to methanol (CH 3 OH) is often regarded as the “holy grail”. However, it still is very difficult and challenging to oxidize methane to methanol in one step. In this work, we present a new approach to directly oxidize CH 4 to generate CH 3 OH in one step by doping non-noble metal Ni sites on bismuth oxychloride (BiOCl) equipped with high oxygen vacancies. Thereint… Show more

“…As methane oxidized to create methyl and adsorbed hydroxyl groups, the oxygen vacancies of the unsaturated Bi atoms adsorbed and activated CH 4 , keeping the catalyst active. As much as 39.07 µmol/(gcat-h) of O 2 and H 2 O-based CH 3 OH was converted at 420 • C and under flow conditions [16]. Pereira et al developed a new process using copper-exchanged zeolite omega (Cu-MAZ) by discovering that carbon dioxide can be used as a substitute for oxygen and that CH 3 OH yields are higher when carbon dioxide is involved in the reaction.…”

Materials Enabling Methane and Toluene Gas Treatment

“…As methane oxidized to create methyl and adsorbed hydroxyl groups, the oxygen vacancies of the unsaturated Bi atoms adsorbed and activated CH 4 , keeping the catalyst active. As much as 39.07 µmol/(gcat-h) of O 2 and H 2 O-based CH 3 OH was converted at 420 • C and under flow conditions [16]. Pereira et al developed a new process using copper-exchanged zeolite omega (Cu-MAZ) by discovering that carbon dioxide can be used as a substitute for oxygen and that CH 3 OH yields are higher when carbon dioxide is involved in the reaction.…”

Materials Enabling Methane and Toluene Gas Treatment

Photothermal catalytic methane oxidation to methanol on Cu/Ti-ZSM-5

Selective oxidation of methane to methanol over lignin-derived biochar supported transition metals catalysts