The k p Method: Electronic Properties of Semiconductors

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This book presents a detailed exposition of the formalism and application of k.p theory for both bulk and nanostructured semiconductors. For bulk crystals, this is the first time all the major techniques for deriving the most popular Hamiltonians have been provided in one place. For nanostructures, this is the first time the Burt-Foreman theory has been made accessible. Thus, the reader will gain a clear understanding of the k.p method, will have an explicit listing of the various Hamiltonians in a consistent notation for their use, and a set of representative results. In addition, the reader can derive an excellent understanding of the electronic structure of semiconductors.

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Electronic Properties of Novel Nanostructures : XIX International Winterschool/Euroconference on Electronic Properties of Novel Materials

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‘All papers were peer-reviewed. The 19th Winterschool focused mainly on new nanostructured materials, with data presented on functionalized fullerenes and carbon nanotubes, filled and double-wall nanotubes, non-carbon nanotubes, such as BN and MoS2 tubes, and other nanostructures. The direction of nanoelectronics research was explored in depth, and advancements in composite technology and novel applications for nanotubes were discussed. Importantly, participants were updated on the theoretical and experimental determinations of structural and electronic properties as well as on characterization methods for molecular nanostructures.

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Transport and Optical Properties of Nanomaterials: Proceedings of the International Conference – ICTOPON-2009

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The conference was a forum to discuss recent developments in the growth and characterization of nano-structured materials, the synthesis of novel materials and their incorporation into devices with optical and electronic properties determined by nanoscale features, and the theoretical modeling of electronic, optical, magnetic and thermal properties of such systems.

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Spectroscopical investigation of carbon nanostructures: Singlewall and multiwall carbon nanotubes, carbon onions

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Carbon is the only element in the IV column to have both the sp2 and the sp3 bonding, and this allows it to have an allotropic form. Different carbon nanostructures with a different number of carbon atoms and geometrical shape can obtained.These imply different electronic properties according to the geometrical structures. They are smaller, longer, cleaner, and more chemically manipulable than the semiconducting or metallic counterparts up to now used. Novel photoemission spectroscopy investigations by a synchrotron radiation source have been performed on carbon nanostructures. Core level and valence band of single wall, multiwall, carbon onions have studied. Intercalation by potassium have been performed to observe how the electronic structures can be modified and in detail the Fermi edge. Our data show how a Luttinger liquid behaviour can be observed in the single wall carbon nanotubes,while for the multiwall carbon nanotubes a Fermi liquid behaviour can be assigned. A shift to higher binding energy and broadening of the core level upon the potassium intercalation has been observed as temperature of decomposition of singlewall.

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Carbon Nanotubes: Preperation and Properties

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Nanomaterials are destined to become a discipline as distinct and important as polymers are in chemistry! With the realization that the structure of molecules such as C60 and C70 followed simple geometric principles, it became clear that a great variety of hollow, closed carbon structures, including nanotubes, could be made along the same principles. The modern nanotube can be thought of as the ultimate fiber formed of perfectly closed, seamless shells having unique features, such as mechanical and electronic properties that are very sensitive to its geometry and its dimensions. The nanotube has many uses:

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