Insights into elusive and cooperative multi-oxidant mechanisms in enabling catalytic methane-to-methanol conversion over atomically dispersed metals

Li Long Zhang; Yaqiong Su; Dandan Chen; Hongguo Wu; Feng Xu; Hu Li; Song Yang

doi:10.1039/d3qi00079f

Insights into elusive and cooperative multi-oxidant mechanisms in enabling catalytic methane-to-methanol conversion over atomically dispersed metals

Li Long Zhang, Yaqiong Su, Dandan Chen, Hongguo Wu, Feng Xu, Hu Li (Corresponding author), Song Yang (Corresponding author)

Inorganic Materials & Catalysis

Onderzoeksoutput: Bijdrage aan tijdschrift › Tijdschriftartikel › Academic › peer review

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NO_x is frequently invoked as an oxidant for direct selective conversion of methane into methanol (DSCMM), which has long been considered one of the holy grails in green chemistry. A challenge in studying the use of NO_x in oxidizing methane is the interconversion of various NO_x compounds as well as the easy formation of O₂, rendering it difficult to draw firm conclusions on the oxidant. Here, we explicitly elucidate the strengths of using dual oxidants (NO and N₂O) for DSCMM over various phosphotungstic acid-supported single-atom catalysts. A competitive but cooperative multi-functional protocol involving dual oxidants is proposed to enhance catalytic performance due to its overall strong CH₄ adsorption and thermodynamic favorability compared with normal mechanisms (single O₂, N₂O, or NO). The new cooperative multi-functional mechanism strategy is expected to motivate further research to elaborate on its potential advantages in DSCMM and other relevant catalytic systems.

Originele taal-2	Engels
Pagina's (van-tot)	1838-1851
Aantal pagina's	14
Tijdschrift	Inorganic Chemistry Frontiers
Volume	10
Nummer van het tijdschrift	6
DOI's	https://doi.org/10.1039/d3qi00079f
Status	Gepubliceerd - 13 feb. 2023

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© 2023 The Royal Society of Chemistry.

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This study was financially supported by the Guizhou Provincial S&T Project (2018[4007], ZK[2022]011).

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abstract = "NOx is frequently invoked as an oxidant for direct selective conversion of methane into methanol (DSCMM), which has long been considered one of the holy grails in green chemistry. A challenge in studying the use of NOx in oxidizing methane is the interconversion of various NOx compounds as well as the easy formation of O2, rendering it difficult to draw firm conclusions on the oxidant. Here, we explicitly elucidate the strengths of using dual oxidants (NO and N2O) for DSCMM over various phosphotungstic acid-supported single-atom catalysts. A competitive but cooperative multi-functional protocol involving dual oxidants is proposed to enhance catalytic performance due to its overall strong CH4 adsorption and thermodynamic favorability compared with normal mechanisms (single O2, N2O, or NO). The new cooperative multi-functional mechanism strategy is expected to motivate further research to elaborate on its potential advantages in DSCMM and other relevant catalytic systems.",

author = "Zhang, {Li Long} and Yaqiong Su and Dandan Chen and Hongguo Wu and Feng Xu and Hu Li and Song Yang",

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Insights into elusive and cooperative multi-oxidant mechanisms in enabling catalytic methane-to-methanol conversion over atomically dispersed metals. / Zhang, Li Long; Su, Yaqiong; Chen, Dandan et al.
In: Inorganic Chemistry Frontiers, Vol. 10, Nr. 6, 13.02.2023, blz. 1838-1851.

Onderzoeksoutput: Bijdrage aan tijdschrift › Tijdschriftartikel › Academic › peer review

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T1 - Insights into elusive and cooperative multi-oxidant mechanisms in enabling catalytic methane-to-methanol conversion over atomically dispersed metals

AU - Zhang, Li Long

AU - Su, Yaqiong

AU - Chen, Dandan

AU - Wu, Hongguo

AU - Xu, Feng

AU - Li, Hu

AU - Yang, Song

N1 - Funding Information: This study was financially supported by the Guizhou Provincial S&T Project (2018[4007], ZK[2022]011).

PY - 2023/2/13

Y1 - 2023/2/13

N2 - NOx is frequently invoked as an oxidant for direct selective conversion of methane into methanol (DSCMM), which has long been considered one of the holy grails in green chemistry. A challenge in studying the use of NOx in oxidizing methane is the interconversion of various NOx compounds as well as the easy formation of O2, rendering it difficult to draw firm conclusions on the oxidant. Here, we explicitly elucidate the strengths of using dual oxidants (NO and N2O) for DSCMM over various phosphotungstic acid-supported single-atom catalysts. A competitive but cooperative multi-functional protocol involving dual oxidants is proposed to enhance catalytic performance due to its overall strong CH4 adsorption and thermodynamic favorability compared with normal mechanisms (single O2, N2O, or NO). The new cooperative multi-functional mechanism strategy is expected to motivate further research to elaborate on its potential advantages in DSCMM and other relevant catalytic systems.

AB - NOx is frequently invoked as an oxidant for direct selective conversion of methane into methanol (DSCMM), which has long been considered one of the holy grails in green chemistry. A challenge in studying the use of NOx in oxidizing methane is the interconversion of various NOx compounds as well as the easy formation of O2, rendering it difficult to draw firm conclusions on the oxidant. Here, we explicitly elucidate the strengths of using dual oxidants (NO and N2O) for DSCMM over various phosphotungstic acid-supported single-atom catalysts. A competitive but cooperative multi-functional protocol involving dual oxidants is proposed to enhance catalytic performance due to its overall strong CH4 adsorption and thermodynamic favorability compared with normal mechanisms (single O2, N2O, or NO). The new cooperative multi-functional mechanism strategy is expected to motivate further research to elaborate on its potential advantages in DSCMM and other relevant catalytic systems.

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Insights into elusive and cooperative multi-oxidant mechanisms in enabling catalytic methane-to-methanol conversion over atomically dispersed metals

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