Metal-graphene interaction studied via atomic resolution scanning transmission electron microscopy.

Interaction of Metals with Suspended Graphene Observed by Transmission Electron Microscopy.

In this Perspective, we present an overview of how different metals interface with suspended graphene, providing a closer look into the metal-graphene interaction by employing high-resolution transmission electron microscopy, especially using high-angle dark field imaging. All studied metals favor sites on the omnipresent hydrocarbon surface contamination rather than on the clean graphene surfa...

Toward Two-Dimensional All-Carbon Heterostructures via Ion Beam Patterning of Single-Layer Graphene

Graphene has many claims to fame: it is the thinnest possible membrane, it has unique electronic and excellent mechanical properties, and it provides the perfect model structure for studying materials science at the atomic level. However, for many practical studies and applications the ordered hexagon arrangement of carbon atoms in graphene is not directly suitable. Here, we show that the atoms...

Scanning Transmission Electron Microscopy of Metal- Graphene Interaction

In-situ observation and atomic resolution imaging of the ion irradiation induced amorphisation of graphene

Ion irradiation has been observed to induce a macroscopic flattening and in-plane shrinkage of graphene sheets without a complete loss of crystallinity. Electron diffraction studies performed during simultaneous in-situ ion irradiation have allowed identification of the fluence at which the graphene sheet loses long-range order. This approach has facilitated complementary ex-situ investigations...

Atomic resolution imaging and spectroscopy of barium atoms and functional groups on graphene oxide.

We present an atomic resolution transmission electron microscopy (TEM) and scanning TEM (STEM) study of the local structure and composition of graphene oxide modified with Ba(2+). In our experiments, which are carried out at 80kV, the acquisition of contamination-free high-resolution STEM images is only possible while heating the sample above 400°C using a highly stable heating holder. Ba atoms...