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W2970419452 endingPage "143842" @default.
W2970419452 startingPage "143842" @default.
W2970419452 abstract "In this work, Pd–MoOx nanomaterials were developed changing the Mo/Pd precursor ratio and tested for ethylene glycol electro–oxidation reaction (EGOR) in alkaline medium. Mo atomic % compositions of 0, 15, 35, 45 and 75 at. % were evaluated. The increase of Mo at. % resulted in morphology changes due to the directing effect of hexadecyltrimethylammonium bromide (CTAB) on molybdenum passing from hemispheres to nanobelts + hemispheres (15 at. % Mo denoted as Pd85Mo15), then only nanobelts (35 at. % Mo, Pd65Mo35), and nanosheets (45 at. % Mo, Pd55Mo45), and hemispheres were newly obtained at the higher Mo concentration (75 at. % Mo, Pd25Mo75). The activity evaluation of EGOR at 60 °C indicated that Pd25Mo75 supported on Vulcan carbon (Pd25Mo75/C) displayed the highest current density (63.80 mA cm−2), and according with X–ray photoelectron spectroscopy (XPS) the highest activity of Pd25Mo75/C can be related to the abundance of Mo5+ species, which have oxygen vacancies with a single positive charge. Additionally, the analysis of O 1s core–level corroborated the abundance of oxygen with high number of defects sites. Thereby, it was found that Pd loading can be decreased without comprising the activity by increasing oxygen vacancies of MoOx as co–catalyst." @default.
W2970419452 created "2019-09-05" @default.
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W2970419452 date "2019-12-01" @default.
W2970419452 modified "2023-10-18" @default.
W2970419452 title "Effect of molybdenum content on the morphology and electronic characteristics of Pd–MoO nanomaterials and activity evaluation for ethylene glycol electro–oxidation" @default.
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W2970419452 doi "https://doi.org/10.1016/j.apsusc.2019.143842" @default.
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