The catalytic growth on transition metal surfaces provides a clean and controllable route to obtain defect-free, monocrystalline graphene. However, graphene's optical and electronic properties are diminished by the interaction with the metal substrate. One way to overcome this obstacle is the intercalation of atoms and molecules decoupling the graphene and restoring its electronic structure. We applied noncontact atomic force microscopy to study the structural and electric properties of graphene on clean Cu(111) and after the adsorption of KBr or NaCl. By means of Kelvin probe force microscopy, a change in graphene's work function has been observed after the deposition of KBr, indicating a changed graphene-substrate interaction. Further measurements of single-electron charging events as well as X-ray photoelectron spectroscopy confirmed an electronic decoupling of the graphene islands by KBr intercalation. The results have been compared with density functional theory calculations, supporting our experimental findings.

Schulzendorf M., Hinaut A., Kisiel M., Johr R., Pawlak R., Restuccia P., et al. (2019). Altering the Properties of Graphene on Cu(111) by Intercalation of Potassium Bromide. ACS NANO, 13(5), 5485-5492 [10.1021/acsnano.9b00278].

Altering the Properties of Graphene on Cu(111) by Intercalation of Potassium Bromide

Restuccia P.;Righi M. C.
;
2019

Abstract

The catalytic growth on transition metal surfaces provides a clean and controllable route to obtain defect-free, monocrystalline graphene. However, graphene's optical and electronic properties are diminished by the interaction with the metal substrate. One way to overcome this obstacle is the intercalation of atoms and molecules decoupling the graphene and restoring its electronic structure. We applied noncontact atomic force microscopy to study the structural and electric properties of graphene on clean Cu(111) and after the adsorption of KBr or NaCl. By means of Kelvin probe force microscopy, a change in graphene's work function has been observed after the deposition of KBr, indicating a changed graphene-substrate interaction. Further measurements of single-electron charging events as well as X-ray photoelectron spectroscopy confirmed an electronic decoupling of the graphene islands by KBr intercalation. The results have been compared with density functional theory calculations, supporting our experimental findings.
2019
Schulzendorf M., Hinaut A., Kisiel M., Johr R., Pawlak R., Restuccia P., et al. (2019). Altering the Properties of Graphene on Cu(111) by Intercalation of Potassium Bromide. ACS NANO, 13(5), 5485-5492 [10.1021/acsnano.9b00278].
Schulzendorf M.; Hinaut A.; Kisiel M.; Johr R.; Pawlak R.; Restuccia P.; Meyer E.; Righi M. C.; Glatzel T.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/777675
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