Abstract
We use anhydrous ferric chloride (FeCl(3)) to intercalate graphite flakes consisting of 2-4 graphene layers and to dope graphene monolayers. The intercalant, staging, stability, and doping of the resulting intercalation compounds (ICs) are characterized by Raman scattering. The G peak of heavily doped monolayer graphene upshifts to ∼1627 cm(-1). The 2-4 layer ICs have similar upshifts, and a Lorentzian line shape for the 2D band, indicating that each layer behaves as a decoupled heavily doped monolayer. By performing Raman measurements at different excitation energies, we show that, for a given doping level, the 2D peak can be suppressed by Pauli blocking for laser energy below the doping level. Thus, multiwavelength Raman spectroscopy allows a direct measurement of the Fermi level, complementary to that derived by performing measurements at fixed excitation energy significantly higher than the doping level. This allows us to estimate a Fermi level shift of up to ∼0.9 eV. These ICs are thus ideal test-beds for the physical and chemical properties of heavily doped graphenes.
Keywords
Raman spectroscopyChemistryGrapheneDopingFermi levelIntercalation (chemistry)MonolayerGraphiteAnalytical Chemistry (journal)Raman scatteringFermi energyNanotechnologyInorganic chemistryMaterials scienceOptoelectronicsOptics
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Publication Info
- Year
- 2011
- Type
- article
- Volume
- 133
- Issue
- 15
- Pages
- 5941-5946
- Citations
- 272
- Access
- Closed
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Cite This
Weijie Zhao,
Ping‐Heng Tan,
Jian Liu
et al.
(2011).
Intercalation of Few-Layer Graphite Flakes with FeCl<sub>3</sub>: Raman Determination of Fermi Level, Layer by Layer Decoupling, and Stability.
Journal of the American Chemical Society
, 133
(15)
, 5941-5946.
https://doi.org/10.1021/ja110939a
Identifiers
- DOI
- 10.1021/ja110939a