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Arraying faceted manganese oxides for selective ethylene electro-oxidation to ethylene glycol in aqueous electrolytes #MMPMID41353190
Liang NN; Wang H; Wei Y; Wang T; Yu W; Yin Z; Zhao Y; Mao T; Han J; Zhao YY; Huang JE; Luo M
Nat Commun 2025[Dec]; ? (?): ? PMID41353190show ga
The electro-oxidation of ethylene to ethylene glycol (EG) offers a sustainable pathway for chemical manufacturing, but demands selective non-precious-metal (NPM) electrocatalysts. Here, we design and fabricate a class of arrayed Mn(2)O(3) electrode, which shows a high EG selectivity in practically-favorable aqueous electrolytes among NPM catalysts. By screening various manganese oxides, we first pinpoint Mn(2)O(3) to be the most selective to EG. Density functional theory calculations further reveal that the (111) facet facilitates the second OH* addition to (*)C(2)H(4)OH, the rate-limiting step toward EG. These fundamental findings motivate us to controllably synthesize the (111)-dominant Mn(2)O(3) nanoarrays, which deliver a 52.6 % Faradaic efficiency for EG-the highest for NPM electrocatalysts in aqueous media. Electrochemical and operando spectral studies verify that stabilizing moderately oxidized Mn (III) state under operational anodic bias is essential to the high selectivity of EG. Our findings highlight the crucial role of Mn surface chemistry in steering alkene oxidation and advance the electrosynthesis of EG closer to practicability.
Nat+Commun 2025 ; ? (?): ?
