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The nature of adsorbed oxygen species determines the product selectivity in the oxidative coupling of CH4 as shown on the cover. In their Communication (e202319192), Guiyuan Jiang, Evgenii V. Kondratenko et al. describe how the formation of carbon oxides and ethane correlates with the binding strength of selective mono-atomic oxygen species. The strength affects the probability of their recombination to diatomic oxygen species oxidizing methane to carbon oxides. Cover image credit: Vita A. Kondratenko. The nature of adsorbed oxygen species determines the product selectivity in the oxidative coupling of CH4 as shown on the cover. In their Communication (e202319192), Guiyuan Jiang, Evgenii V. Kondratenko et al. describe how the formation of carbon oxides and ethane correlates with the binding strength of selective mono-atomic oxygen species. The strength affects the probability of their recombination to diatomic oxygen species oxidizing methane to carbon oxides. Cover image credit: Vita A. Kondratenko. Nanotechnology Photocatalysis Bioorganic Chemistry
Wu et al. (Thu,) studied this question.
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