Yuka Tsuchimura scite author profile

Catalytic reaction systems for the direct conversion of methane to methanol have been previously developed using Cu zeolites. Among these materials, the Cu-CHA has been reported to show relatively high catalytic performance during the reaction of CH 4 −O 2 −H 2 O mixtures, although this catalytic activity varies with composition. In the present study, four Cu-CHA catalysts having different compositions and catalytic activity levels were prepared, and the redox properties and local structures of these specimens were analyzed using in situ X-ray absorption fine structure and UV−vis diffuse reflectance spectroscopies in conjunction with a CH 4 −O 2 −H 2 O reaction mixture. The relationships between the redox rates of the materials and catalytic activities (as reflected in the turnover frequency (TOF) during CH 4 oxidation) were assessed, and this analysis showed that the Cu-CHA reduction rate was highly correlated with activity. The data also suggested that the Cu 2+ reduction is associated with the activation of C−H bonds in CH 4 , which is the rate-determining step for the overall reaction. The effects of the local structure of the Cu-CHA on selectivity for CH 3 OH, the TOF value, and the Cu 2+ reduction rate were studied. Those Cu-CHA samples having high proportions of Cu 2+ ions coordinated to six-membered rings (Z 2 Cu) in the CHA framework exhibited higher selectivity than specimens having high proportions of [CuOH] + ions coordinated to eight-membered rings (ZCuOH), although the TOF values of the former Cu-CHA specimens were not higher than those of the latter because of the slower reduction rates of Cu 2+ species. The different catalyses can be attributed to the difference in Cu 2 O x active structures formed in the Z 2 Cu-rich samples and the ZCuOH-rich samples.

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Catalytic oxidation of methane to methanol over Cu-CHA with molecular oxygen

Hirayama

Tsuchimura

Yoshida

et al. 2021

Catal. Sci. Technol.

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Catalytic direct oxidation of methane to methanol by redox of copper mordenite

Ohyama

Hirayama

Tsuchimura

et al. 2021

Catal. Sci. Technol.

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Selective Oxidation of Methane to Formaldehyde over a Silica-Supported Cobalt Single-Atom Catalyst

et al. 2022

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Catalytic oxidation of methane to formaldehyde and methanol has attracted attention because of its advantage in energy efficiency over the conventional multistep reaction process involving endothermic steam reforming of CH 4 ; however, it is challenging to selectively obtain the partial oxidation products in the direct oxidation of CH 4 . In the present study, Co/SiO 2 with various Co loadings was tested for the CH 4 /O 2 /H 2 O gas flow reaction. As a result, Co/SiO 2 with a low loading of ≤0.1 wt % showed high selectivity for the partial oxidation reaction and mainly produced HCHO, while Co/SiO 2 with high Co loadings proceeded to complete oxidation. Structural analysis using X-ray absorption finestructure spectroscopy, X-ray photoelectron spectroscopy, X-ray diffraction, and scanning transmission electron microscopy suggested that single Co atoms generated at low Co loadings were effective in the selective oxidation of CH 4 to HCHO, while Co 3 O 4 nanoparticles generated at high Co loadings promoted the complete oxidation.

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Yuka Tsuchimura

Relationships among the Catalytic Performance, Redox Activity, and Structure of Cu-CHA Catalysts for the Direct Oxidation of Methane to Methanol Investigated Using In Situ XAFS and UV–Vis Spectroscopies

Catalytic oxidation of methane to methanol over Cu-CHA with molecular oxygen

Catalytic direct oxidation of methane to methanol by redox of copper mordenite

Selective Oxidation of Methane to Formaldehyde over a Silica-Supported Cobalt Single-Atom Catalyst

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