Publication | Open Access
CO chemisorption at vacancies of supported graphene films: a candidate for a sensor?
16
Citations
33
References
2016
Year
Reactive NiEngineeringCo AdsorptionChemistrySupported Graphene FilmsGraphene NanomeshesChemical EngineeringGraphene-based Nano-antennasNanoelectronicsCo ChemisorptionNanotechnologyGraphene Quantum DotNanomaterialsSurface ScienceApplied PhysicsGraphene FiberSingle VacanciesGrapheneGraphene Nanoribbon
We investigate CO adsorption at single vacancies of graphene supported on Ni(111) and polycrystalline Cu. The borders of the vacancies are chemically inert but, on the reactive Ni(111) substrate, CO intercalation occurs. Adsorbed CO dissociates at 380 K, leading to carbide formation and mending of the vacancies, thus preventing their effectiveness in sensor applications.
| Year | Citations | |
|---|---|---|
Page 1
Page 1