2011
DOI: 10.1002/anie.201006424
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Chemistry with Methane: Concepts Rather than Recipes

Abstract: Four seemingly simple transformations related to the chemistry of methane will be addressed from mechanistic and conceptual points of view: 1) metal-mediated dehydrogenation to form metal carbene complexes, 2) the hydrogen-atom abstraction step in the oxidative dimerization of methane, 3) the mechanisms of the CH(4)→CH(3)OH conversion, and 4) the initial bond scission (C-H vs. O-H) as well as the rate-limiting step in the selective CH(3)OH→CH(2)O oxidation. State-of-the-art gas-phase experiments, in conjunctio… Show more

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Cited by 656 publications
(497 citation statements)
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References 349 publications
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“…Last, the carbon formation will be subject to further studies to better understand catalyst deactivation during hydrogenation. In a next step, the activation of methane, as future potential energy feedstock [65,357,234,358,359,360] will be probed on clusters of different metals.…”
Section: Discussionmentioning
confidence: 99%
“…Last, the carbon formation will be subject to further studies to better understand catalyst deactivation during hydrogenation. In a next step, the activation of methane, as future potential energy feedstock [65,357,234,358,359,360] will be probed on clusters of different metals.…”
Section: Discussionmentioning
confidence: 99%
“…The identity of the active site for methane activation on OCM catalysts remains open. According to Schwarz [68], oxygen centered radicals on metal oxides are active for homolytic hydrogen abstraction from methane (Eq. 22).…”
Section: Ocm With Dioxygenmentioning
confidence: 99%
“…What is at stake is how the coordination sphere of Fe 2+ (39)(40)(41)(42)(43)(44)(45)(46) under specific conditions affects the competition between the one-electron transfer producing ·OH radicals (the Haber-Weiss mechanism) (47), reaction R1, and the two-electron oxidation via O-atom transfer (the Bray-Gorin mechanism) into Fe IV O…”
mentioning
confidence: 99%