: Electron doping of graphene has been extensively studied on graphene-supported surfaces, where the metallicity is influenced by the substrate. Herewith we propose potassium adsorption on free-standing nanoporous graphene, thus eluding any effect due to the substrate. We monitor the electron migration in the π* downward-shifted conduction band. In this rigid band shift, we correlate the spectral density of the π* state in the upper Dirac cone with the associated plasmon, blue-shifted with increasing K dose, as deduced by electron energy loss spectroscopy. These results are confirmed by the Dirac plasmon activated by the C 1s emitted electrons, thanks to spatially resolved photoemission. This crosscheck constitutes a reference on the correlation between the electronic π* states in the conduction band and the Dirac plasmon evolution upon in situ electron doping of fully free-standing graphene.
Tuning the electronic response of metallic graphene by potassium doping / Marchiani, Dario; Tonelli, Andrea; Mariani, Carlo; Frisenda, Riccardo; Avila, José; Dudin, Pavel; Jeong, Samuel; Ito, Yoshikazu; Magnani, Francesco Saverio; Biagi, Roberto; De Renzi, Valentina; Betti, Maria Grazia. - In: NANO LETTERS. - ISSN 1530-6992. - 23:1(2023), pp. 170-176. [10.1021/acs.nanolett.2c03891]
Tuning the electronic response of metallic graphene by potassium doping
Marchiani, Dario;Mariani, Carlo;Frisenda, Riccardo;Betti, Maria Grazia
2023
Abstract
: Electron doping of graphene has been extensively studied on graphene-supported surfaces, where the metallicity is influenced by the substrate. Herewith we propose potassium adsorption on free-standing nanoporous graphene, thus eluding any effect due to the substrate. We monitor the electron migration in the π* downward-shifted conduction band. In this rigid band shift, we correlate the spectral density of the π* state in the upper Dirac cone with the associated plasmon, blue-shifted with increasing K dose, as deduced by electron energy loss spectroscopy. These results are confirmed by the Dirac plasmon activated by the C 1s emitted electrons, thanks to spatially resolved photoemission. This crosscheck constitutes a reference on the correlation between the electronic π* states in the conduction band and the Dirac plasmon evolution upon in situ electron doping of fully free-standing graphene.| File | Dimensione | Formato | |
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