Growing graphene ribbons
In the issue of Nature published on 22 July 2010, scientists led by Roman Fasel, Senior Scientist at Empa and Professor for Chemistry and Biochemistry at the University of Bern, and Klaus Müllen, Director at the Max Planck Institute for Polymer Research, describe a simple surface-based chemical method for creating such narrow ribbons without the need for cutting, in a bottom-up approach, i.e. from the basic building blocks. To achieve this, they spread specifically designed halogen-substituted monomers on gold and silver surfaces under ultrahigh vacuum conditions. These are linked to form polyphenylene chains in a first reaction step.
In a second reaction step, initiated by slightly higher heating, hydrogen atoms are removed and the chains interconnected to form a planar, aromatic graphene system. This results in graphene ribbons of the thickness of a single atom that are one nanometre wide and up to 50 nm in length. The graphene ribbons are thus so narrow that they exhibit an electronic band gap and therefore, as is the case with silicon, possess switching properties – a first and important step for the shift from silicon microelectronics to graphene nanoelectronics. And if this wasn’t enough, graphene ribbons with different spatial structures (either straight lines or with zig-zag shapes) are created, depending on which molecular monomers the scientists used.
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