Titlebook: Electron Microscopy of Nanotubes; Zhong Lin Wang,Chun Hui Book 2003 Kluwer Academic Publishers 2003 composite material.diffraction.electro

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Electron Energy-Loss Spectroscopy of Carbon Nanotubes and Onions subnanometer spot that is scanned across the sample while at each point the spectroscopic information is recorded or (2) electrons within given energy windows are used to form a series of energy filtered images of the sample [.].

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Mechanical Properties of Nanotubes and Nanowirescteristics of the nanostructures. Finally, integration of nanomaterials with the existing technology is the most important step for their applications, especially in nano-scale electronics and optoelectronics.

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The Smallest Carbon Nanotubesular nanocrystal of graphite. Different from bulk-quantity graphite material, however, carbon nanotubes have demonstrated remarkable electronic, optical, and mechanical properties sensitive to the diameter and helicity of the tube lattice. The tremendous recent interest in carbon nanotubes stems not

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Electron Energy-Loss Spectroscopy of Carbon Nanotubes and Onionsed. This can be in transmission geometry, where electrons pass through a sufficiently thin film, or in reflection geometry, combination with a transmission electron microscope (TEM), where one precisely has the transmission geometry described above. This configuration has the advantage that high-res

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Mechanical Properties of Nanotubes and Nanowiresucture, size, and chemistry. To maintain and utilize the basic and technological advantages offered by the size specificity and selectivity of the nanomaterials, there are three key challenges that we need to overcome for the future technological applications of nanomaterials. First, synthesis of si