P. Zeppenfeld scite author profile

Narrow graphene nanoribbons exhibit substantial electronic bandgaps and optical properties fundamentally different from those of graphene. Unlike graphene-which shows a wavelength-independent absorbance for visible light-the electronic bandgap, and therefore the optical response, of graphene nanoribbons changes with ribbon width. Here we report on the optical properties of armchair graphene nanoribbons of width N ¼ 7 grown on metal surfaces. Reflectance difference spectroscopy in combination with ab initio calculations show that ultranarrow graphene nanoribbons have fully anisotropic optical properties dominated by excitonic effects that sensitively depend on the exact atomic structure. For N ¼ 7 armchair graphene nanoribbons, the optical response is dominated by absorption features at 2.1, 2.3 and 4.2 eV, in excellent agreement with ab initio calculations, which also reveal an absorbance of more than twice the one of graphene for linearly polarized light in the visible range of wavelengths.

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Long-range spatial self-organization in the adsorbate-induced restructuring of surfaces: Cu{100}-(2×1)O

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et al. 1991

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et al. 2004

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et al. 2001

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Manipulating atoms and molecules with a scanning tunneling microscope

1992

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Size relation for surface systems with long-range interactions

et al. 1994

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et al. 2005

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Thermodynamics and structure of hydrogen, methane, argon, oxygen and carbon dioxide adsorbed on single wall carbon nanotube bundles

Bienfait¹,

Zeppenfeld²,

Dupont-Pavlovsky³

et al. 2004

Physica B: Condensed Matter

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P. Zeppenfeld

Exciton-dominated optical response of ultra-narrow graphene nanoribbons

Long-range spatial self-organization in the adsorbate-induced restructuring of surfaces: Cu{100}-(2×1)O

Thermodynamics and structure of hydrogen, methane, argon, oxygen, and carbon dioxide adsorbed on single-wall carbon nanotube bundles

Where are the molecules adsorbed on single-walled nanotubes?

Manipulating atoms and molecules with a scanning tunneling microscope

Size relation for surface systems with long-range interactions

Argon adsorption in open-ended single-wall carbon nanotubes

Thermodynamics and structure of hydrogen, methane, argon, oxygen and carbon dioxide adsorbed on single wall carbon nanotube bundles

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