Boosting the generation of key intermediate methyl radical (CH3•) in OCM reaction on magnesium oxide catalysts by regulating the electronic state of the active site-Reference-Cited by-同舟云学术

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Boosting the generation of key intermediate methyl radical (CH3•) in OCM reaction on magnesium oxide catalysts by regulating the electronic state of the active site

Published:2023-05 Issue: Volume:542 Page:113125
ISSN:2468-8231
Container-title:Molecular Catalysis
language:en
Short-container-title:Molecular Catalysis

Author:

Dong Mengjie,Han Bingying,Ye Runping^ORCID,Shi Neng,Liu Ye,Zhang Riguang,Ling Lixia,Jia Litao,Wang Baojun

Publisher

Elsevier BV

Subject

Physical and Theoretical Chemistry,Process Chemistry and Technology,Catalysis

Reference56 articles.

1. Selective anaerobic oxidation of methane enables direct synthesis of methanol;Sushkevich;Science,2017

2. Unconventional chemistry for unconventional natural gas;McFarland;Science,2012

3. Direct oxidation of methane to methanol over Cu-zeolites at mild conditions;Álvarez;Mol. Catal.,2020

4. Direct conversion of methane to value-added chemicals over heterogeneous catalysts: challenges and prospects;Schwach;Chem. Rev.,2017

5. Direct conversion of methane to fuels and chemicals;Holmen;Catal. Today,2009

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1. Elucidating the action mechanism of different kinds of oxygen species on methane dissociation to generate methyl radical on lanthanum oxide catalyst;Fuel;2024-06

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