Catal. Sci. Technol.
 2023
DOI: 10.1039/d3cy00482a
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Zeolite-based catalysts for oxidative upgrading of methane: design and control of active sites

Mizuho Yabushita
1
,
Ryota Osuga
2
,
Toshiyuki Yokoi
3
et al.

Abstract: Oxidative upgrading of methane into carbon monoxide, methanol, lower hydrocarbons (such as ethane and ethylene), and other oxygenates has been achieved at relatively low temperatures over zeolite-based catalysts. The high...

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Cited by 6 publications
(1 citation statement)
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“…, zeolites), such as acidic properties, thermal stability, catalytic performance, and ion-exchange properties. 1 The isomorphous substitution of trivalent heteroatoms into zeolite frameworks generates ion-exchange sites in a one-to-one correspondence for charge compensation. Because isomorphously substituting heteroatoms are typically isolated from each other in zeolite frameworks, ion-exchange sites on such heteroatoms capture monovalent cations.…”
mentioning
confidence: 99%

Formation of paired Ga sites in CHA-type zeolite frameworks via a transcription-induced method

Kaneko,
Yabushita,
Osuga
et al. 2024
Chem. Commun.
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“…, zeolites), such as acidic properties, thermal stability, catalytic performance, and ion-exchange properties. 1 The isomorphous substitution of trivalent heteroatoms into zeolite frameworks generates ion-exchange sites in a one-to-one correspondence for charge compensation. Because isomorphously substituting heteroatoms are typically isolated from each other in zeolite frameworks, ion-exchange sites on such heteroatoms capture monovalent cations.…”
mentioning
confidence: 99%

Formation of paired Ga sites in CHA-type zeolite frameworks via a transcription-induced method

Kaneko,
Yabushita,
Osuga
et al. 2024
Chem. Commun.
Self Cite
1
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Future Research Directions in the Partial Oxidation of Methane to Methanol Over Copper‐Containing Zeolites

Ogunleye,
Pokhrel,
Shantz
2024
ChemCatChem
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Thermodynamic possibility analysis of CH3COOH synthesis from CH4 and CO2

Zhang,
Bian,
Tian
et al. 2024
Molecular Catalysis
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