Prof. Dr. Harold J. W. Zandvliet,
University of Twente, Enschede, the Netherlands
PGI Lecture Hall, Building 04.8, 2nd Floor, Room 365
- 28.04.2017 11:00 Uhr
Germanene: Graphene’s Little Sister
Recently, a few research groups have reported the growth of germanene, a new member of the graphene family . Germanene is in many aspects very similar to graphene, but in contrast to the planar graphene lattice, the germanene honeycomb lattice is slightly buckled and composed of two vertically displaced sub-lattices. Frist principles total energy calculations have revealed that free-standing germanene is a two-dimensional Dirac fermion system, i.e. the electrons behave as massless relativistic particles that are described by the Dirac equation, i.e. the relativistic variant of the Schrödinger equation. We will give a brief update of the growth and electronic properties of germanene on Pt/Ge(110) nanocrystals [2,3].
Subsequently, we will show that large and continuous single germanene layers can be grown on molybdenum disulfide (MoS2) . The structural and electronic properties of the germanene layer are studied with scanning tunneling microscopy and spectroscopy. The lattice constant of the germanene layer is 3.8±0.1 Å, i.e. substantially larger than the lattice constant of MoS2 (3.16 Å), and the interlayer distance between the germanene layer and the MoS2 substrate is 3.2±0.2 Å, indicating that we are dealing with a low-buckled germanene layer. The density of states of the germanene layer exhibits a V-shape, which is reminiscent of a two-dimensional Dirac system. The minimum of the density of states is located near the Fermi level.
 A. Acun et al. J. Phys. Cond. Mat. 27, 443002 (2015) and references therein.
 P. Bampoulis et al. J. Phys. Cond. Mat., 26, 442001 (2014).
 L. Zhang et al., Appl. Phys. Lett. 107, 111605 (2015).
 L. Zhang et al. Phys. Rev. Lett. 116, 256804 (2016).