Faculty Publications

Observation Of Low Energy Raman Modes In Twisted Bilayer Graphene

Document Type

Article

Keywords

Bilayer graphene, low energy modes, Raman, twisted

Journal/Book/Conference Title

Nano Letters

Volume

13

Issue

8

First Page

3594

Last Page

3601

Abstract

Two new Raman modes below 100 cm-1 are observed in twisted bilayer graphene grown by chemical vapor deposition. The two modes are observed in a small range of twisting angle at which the intensity of the G Raman peak is strongly enhanced, indicating that these low energy modes and the G Raman mode share the same resonance enhancement mechanism, as a function of twisting angle. The ∼94 cm-1 mode (measured with a 532 nm laser excitation) is assigned to the fundamental layer breathing vibration (ZO′ mode) mediated by the twisted bilayer graphene lattice, which lacks long-range translational symmetry. The dependence of this mode's frequency and line width on the rotational angle can be explained by the double resonance Raman process that is different from the previously identified Raman processes activated by twisted bilayer graphene superlattice. The dependence also reveals the strong impact of electronic-band overlaps of the two graphene layers. Another new mode at ∼52 cm-1, not observed previously in the bilayer graphene system, is tentatively attributed to a torsion mode in which the bottom and top graphene layers rotate out-of-phase in the plane. © 2013 American Chemical Society.

Department

Department of Physics

Original Publication Date

8-14-2013

DOI of published version

10.1021/nl4013387

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