Graphene–metal interface as one of the interesting graphene-based objects attracts much
attention from both application and fundamental science points of view. This paper gives a …

The synthesis and structures of graphene on Ru (0001) and Pt (111), silicene on Ag (111)
and Ir (111) and the honeycomb hafnium lattice on Ir (111) are reviewed. Epitaxy on a …

Integration of dissimilar two-dimensional (2D) materials is essential for nanoelectronic
applications. Compared to vertical stacking, covalent lateral stitching requires bottom-up …

Using X-ray photoemission spectroscopy (XPS) and scanning tunneling microscopy (STM)
we resolve the temperature-, time-, and flake size-dependent intercalation phases of oxygen …

The present manuscript summarizes the modern view on the problem of the graphene–
metal interaction. Presently, the close-packed surfaces of d metals are used as templates for …

The electronic properties of graphene nanoribbons grown on metal substrates are
significantly masked by the ones of the supporting metal surface. Here, we introduce a novel …

Using spin-polarized scanning tunneling microscopy and density functional theory, we have
studied the structural and magnetic properties of cobalt-intercalated graphene on Ir (111) …

The ease by which graphene is affected through contact with other materials is one of its
unique features and defines an integral part of its potential for applications. Here, it will be …

Fabrication of ordered structures at the nanoscale limit poses a cornerstone challenge for
modern technologies. In this work we show how naturally occurring moiré patterns in Ir (111) …

Recent studies show that periodic potentials can generate superlattice Dirac points at
energies±ℏ ν F| G|/2 in graphene (where ℏ is the reduced Planck constant, ν F is the Fermi …