Novel nanotubes and encapsulated nanowires.
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| Title: | Novel nanotubes and encapsulated nanowires. |
|---|---|
| Authors: | Terrones, M., Hsu, W.K., Schilder, A., Terrones, H., Grobert, N., Hare, J.P., Zhu, Y.Q., Schwoerer, M., Prassides, K., Kroto, H.W., Walton, D.R.M. |
| Source: | Applied Physics A: Materials Science & Processing. 1998, Vol. 66 Issue 3, p307. 11p. |
| Subjects: | Carbon, Electrolysis, Electrodes, Electron spectroscopy, X-ray diffraction |
| Abstract: | Abstract. Carbon nanotubes, with or without encapsulated material, generated by arc discharge and electrolytic techniques have been studied. Microcrystals of refractory carbides (i.e. NbC, TaC, MoC), contained in nanotubes and polyhedral particles, produced by arcing electrodes of graphite/metal mixtures, were analysed by high hesolution transmission electron microscopy (HRTEM) and X-ray powder diffraction. Encapsulation of MoC was found to give rise to an unusual stable form, namely face-centered-cubic MoC. SQUID measurements indicate that the encapsulated carbides exhibit superconducting transitions at about 10-12 K, thus they differ from carbon nanotubes/nanoparticles which do not superconduct. Four-probe and microwave (contactless) conductivity measurements indicate that most of the analysed samples behave as semiconductors. However, metallic transport was observed in specimens containing single conglomerated carbon nanotube bundles and boron-doped carbon nanotubes. Novel metallic beta-Sn nanowires were produced by electrolysis of graphite electrodes immersed in molten LiC1/SnC1[sub 2] mixtures. Prolonged electron irradiation of these nanowires leads to axial growth and to dynamic transformations. These observations suggest ways in which materials may be modified by microencapsulation and irradiation. [ABSTRACT FROM AUTHOR] |
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| Database: | Engineering Source |
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