2022
DOI: 10.1002/admi.202200585
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π Band Folding and Interlayer Band Filling of Graphene upon Interface Potassium Intercalation

Abstract: The structural and electronic properties of epitaxial monolayer graphene on SiC(0001) are examined upon potassium intercalation. Notably, the first real‐space observation via scanning tunneling microscopy of the (2 × 2) superstructure in graphene‐based thin films formed by the potassium atoms below the uppermost graphene layer is presented. Therein, additional signatures stemming from quasiparticle interference effects are found allowing investigations of the electronic bands of K‐intercalated epitaxial monola… Show more

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Cited by 4 publications
(10 citation statements)
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“…[38] The energy of this feature agrees well with the out-of-plane acoustic mode of AB-stacked BLG. [39] According to our structural analysis, [28] however, K atoms are located between the topmost graphene and the former buffer layer, so that i) adjacent layers are most likely arranged by AA stacking [7,40] and ii) the interlayer spacing is definitely increased compared to freestanding BLG [40] as it is also apparent in K-intercalated graphite. [41] Therefore, the calculated low-energy mode of AB-stacked BLG is most likely modified and does not explain this low-energy feature here.…”
Section: Electron-phonon Coupling Strengthmentioning
confidence: 86%
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“…[38] The energy of this feature agrees well with the out-of-plane acoustic mode of AB-stacked BLG. [39] According to our structural analysis, [28] however, K atoms are located between the topmost graphene and the former buffer layer, so that i) adjacent layers are most likely arranged by AA stacking [7,40] and ii) the interlayer spacing is definitely increased compared to freestanding BLG [40] as it is also apparent in K-intercalated graphite. [41] Therefore, the calculated low-energy mode of AB-stacked BLG is most likely modified and does not explain this low-energy feature here.…”
Section: Electron-phonon Coupling Strengthmentioning
confidence: 86%
“…[Correction added on March 29, 2023 after initial publication: The following sentence in section 2.2 "There, the K atoms were deposited at low temperatures, [50] which resulted in a severely lower doping level (n = 0.56 × 10 14 cm −2 [49,50] ) than in the sample studied here (n = 0.56 × 10 14 cm −2 [28] )." was corrected to "There, the K atoms were deposited at low temperatures, [50] which resulted in a severely lower doping level (n = 0.56 × 10 14 cm −2 [49,50] ) than in the sample studied here (n = 4.46 × 10 14 cm −2 [28] )." In addition, the Supporting Information file was replaced, as an earlier outdated version was initially published.…”
Section: Methodsmentioning
confidence: 98%
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