CARBON ATOMIC WIRES: FROM STARS TO NANOTECHNOLOGY

Autori

  • Carlo S. Casari Dipartimento di Energia, Politecnico di Milano

DOI:

https://doi.org/10.4081/scie.2012.130

Abstract

Carbon can produce a wide variety of systems and nanostructures with different dimensionality as exemplified by fullerenes, nanotubes and graphene, all with peculiar properties of great interest for fundamental and applied research. In this framework sp-hybridized carbon atoms can arrange to form atomic wires with size dependent functional properties. The sp form of carbon has a long story passing through astrophysics and minerals found in meteor craters and, although still considered elusive and unstable, nowadays a number of nano-systems constituted by or containing sp-carbon wires have been produced and characterized. As graphene is considered the thinnest material (one-atom thick), carbon atomic wires represent true 1-dimensional systems (one- atom diameter) with a great potential for nanoscience and nanotechnology. The status of research on carbon atomic wires is here discussed, starting from the description of ideal systems to real structures, showing that the properties can be tuned by controlling the wire length (i.e. number of carbon atoms) and termination (atom, molecular group or nanostructure). Synthesis techniques are presented as well as strategies to have stable wires. A particular attention will be given to the use of vibrational spectroscopy to provide insight on the structure and electronic properties of these systems. Perspectives for novel devices based on the exploitation of the electronic properties of these systems are also discussed.

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Pubblicato

2012-12-30

Come citare

Casari, C. S. (2012). CARBON ATOMIC WIRES: FROM STARS TO NANOTECHNOLOGY. Istituto Lombardo - Accademia Di Scienze E Lettere - Rendiconti Di Scienze, 146. https://doi.org/10.4081/scie.2012.130