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Carbon nanotubes synthesis structure properties and applications

In addition, we will discuss the different ways of characterizing these doped nanotubes using spectroscopic techniques, such as resonant Raman, X-ray photoelectron, electron energy loss spectroscopy and others. It will be demonstrated that doped carbon nanotubes could be used in the fabrication of nanodevices e. We will also present results related to the importance of inplane-doped nanotubes for attaching various metal clusters and polymers covalently using wet chemical routes.

Doped carbon nanotubes : Synthesis, characterization and applications. Doped carbon nanotubes Synthesis, characterization and applications.

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Carbon Nanotubes Synthesis, Structure, Properties and Applications book37

USD Sign in to Purchase Instantly. Temporarily Out of Stock Online Please check back later for updated availability. Overview After a short introduction and a brief review of the relation between carbon nanotubes, graphite and other forms of carbon, the synthesis techniques and growth mechanisms for carbon nanotubes are described. Is- raelachvily, Adv.

Rapoport, Y. Homyonfer, H.

Synthesis, Structure, and Properties of PBO/SWNT Composites& | Macromolecules

Cohen, J. Sloan, J.

Hutchinson, R. The nanometer dimensions of the carbon nanotubes together with the unique electronic structure of a graphene sheet make the electronic properties of these one-dimensional structures highly unusual. This chapter reviews some theo- retical work on the relation between the atomic structure and the electronic and transport properties of single-walled carbon nanotubes.


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In addition to the ideal tubes, results on the quantum conductance of nanotube junctions and tubes with defects will be discussed. On-tube metal-semiconductor, semiconductor-semicond- uctor, and metal-metal junctions have been studied. The structure and properties of crossed nanotube junc- tions and ropes of nanotubes have also been studied.


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  • The rich interplay between the structural and the electronic properties of carbon nanotubes gives rise to new phenomena and the possibility of nanoscale device applications. Carbon nanotubes are tubular structures that are typically several nanome- ters in diameter and many microns in length. Because of their nanometer dimensions, there are many interesting and often unexpected properties associated with these structures, and hence there is the possibility of using them to study new phenomena and employing them in applications [2,3,4].

    In addition to the multi-walled tubes, single-walled nanotubes [5,6,7], and ropes of close-packed single-walled tubes have been synthesized [8]. Further, it has been found that nanotubes may also be formed with other layered materi- als [25,26,27,28,29,30,31,32,33,34,35,36]. Dresselhaus, G.