Your search keyword '"Christoph Tegenkamp"' showing total 2 results

1. Quasi-free-standing bilayer graphene nanoribbons probed by electronic transport.

Author

Ilio Miccoli, Aprojanz, Johannes, Jens Baringhaus, Timo Lichtenstein, Galves, Lauren A., Lopes, Joao Marcelo J., and Christoph Tegenkamp

Subjects

*ELECTRIC properties of graphene, *NANORIBBONS, *QUASI-free reactions, *ELECTRON transport, *MOLECULAR self-assembly

Abstract

Direct growth of graphene nanostructures by using concepts of self-assembly and intercalation without further lithography and transfer processes is beneficial for their integration into device applications. In this letter, we report on bilayer graphene nanoribbons, typically 100 nm in width, grown along step edges of SiC(0001) substrates. The ribbons are electrically decoupled from the substrate by an oxygen treatment. By means of a 4-tip STM system, the microscopic structure and transport properties were comprehensively studied. The ribbons reveal a robust hole concentration of around 1 x 1013 cm-2 and mobilities up to 700 cm2/Vs at room temperature. The comparably high mobilities are a consequence of interlayer hopping of the charge carriers. The transport is not limited by the step roughness; thus, this scalable process can be easily extended to arbitrarily shaped structures. [ABSTRACT FROM AUTHOR]

Published

2017

2. Surface state conductivity in epitaxially grown Bi1−x Sb x (111) films.

Author

Julian Koch, Philipp Kröger, Herbert Pfnür, and Christoph Tegenkamp

Subjects

*SURFACE states, *SURFACE energy, *BAND gaps, *ALLOY analysis, *EPITAXIAL layers

Abstract

Topologically non-trivial surface states were reported first on Sbx bulk crystals. In this study we present transport measurements performed on thin Sbx-films (up to 24 nm thickness) grown epitaxially on Si(111) with various Sb-concentrations (up to x = 0.22). The analysis of the temperature dependency allowed us to distinguish between different transport channels originating from surface and bulk bands as well as impurity states. At temperatures below 30 K the transport is mediated by surface states while at higher temperatures activated transport via bulk channels sets in. The surface state conductivity and bulk band gaps can be tuned by the Sb-concentration and film thickness, respectively. For films as thin as 4 nm the surface state transport is strongly suppressed in contrast to Bi(111) films grown under identical conditions. The impurity channel is of intrinsic origin due to the growth and alloy formation process and turns out to be located at the buried interface. [ABSTRACT FROM AUTHOR]

Published

2016