0 a form of carbon consisting of sheets that have the thickness of one atom. The atoms are arranged in a honeycomb pattern (= a pattern of shapes with six sides). --
A movie has been recorded inside the microscope showing hopping of individual carbon atoms around a hole punched in a graphene sheet.
Large, temperature-independent mobilities approach those in exfoliated graphene placed on silicon oxide, but lower than mobilities in suspended graphene produced by the drawing method.
Old papers were unearthed in which researchers tried to isolate graphene starting with intercalated compounds.
In the present study, this mechanism is examined in detail through simulation of the collision of hydrogen atoms with graphene as one of the fundamental processes in plasma-carbon interaction.
Such interactions are typical in chemical sputtering experiments, and knowledge of the fundamental behavior of hydrogen and graphene in collisional conditions is essential for modeling the sputtering mechanism.
The kinetic energy converted from potential energy is diffused into the entire atoms in the graphene through the overhanging carbon atom.
The incident atom gradually loses kinetic energy by repulsion of the carbon atom as it penetrates several graphene layers.
In both cases curved graphene sheets can be observed together with onion-like particles and defective structures which we have defined fullerene-like structures.