Free standing graphene is chemically inert but, as recently demonstrated, CO chemisorption occurs at lowcrystal temperature on the single layer grown by ethene dehydrogenation on Ni(111). Such layer is inhomogeneous since different phases coexist, the relative abundance of which depends on the growth conditions. Here we show by X ray photoemission and high resolution electron energy loss spectroscopies that the attained CO coverage depends strongly on the relative weight of the different phases as well as on the concentration of carbon in the Ni subsurface region. Our data show that the chemical reactivity is hampered by the carbon content in the substrate. The correlation between the amount of adsorbed CO and the weight of the different graphene phases indicates that the top-fcc configuration is the most reactive. Published by AIP Publishing.

Influence of growing conditions on the reactivity of Ni supported graphene towards CO

Carraro G;Smerieri M;Savio L;Vattuone L
2017

Abstract

Free standing graphene is chemically inert but, as recently demonstrated, CO chemisorption occurs at lowcrystal temperature on the single layer grown by ethene dehydrogenation on Ni(111). Such layer is inhomogeneous since different phases coexist, the relative abundance of which depends on the growth conditions. Here we show by X ray photoemission and high resolution electron energy loss spectroscopies that the attained CO coverage depends strongly on the relative weight of the different phases as well as on the concentration of carbon in the Ni subsurface region. Our data show that the chemical reactivity is hampered by the carbon content in the substrate. The correlation between the amount of adsorbed CO and the weight of the different graphene phases indicates that the top-fcc configuration is the most reactive. Published by AIP Publishing.
2017
Istituto dei Materiali per l'Elettronica ed il Magnetismo - IMEM
Graphene
Carbon Monoxide
Reactivity
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/341755
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