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Inorganic Nanotubes

Inorganic Nanotubes. G. R. Patzke, F. Krumeich, R. Nesper, Angew. Chem. Int.Ed. Engl. 14 (2002) 2447. Oxides. Carbon-based. Chalco. Metallic. Semicond. Anisotropic Nanoparticles – Non-Carbon Nanotubes. G. Patzke, F. Krumeich, R. Nesper, Angew. Chem. 2002, 114, 2554.

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Inorganic Nanotubes

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  1. Inorganic Nanotubes G. R. Patzke, F. Krumeich, R. Nesper, Angew. Chem. Int.Ed. Engl. 14 (2002) 2447 Oxides Carbon-based Chalco. Metallic Semicond.

  2. Anisotropic Nanoparticles – Non-Carbon Nanotubes G. Patzke, F. Krumeich, R. Nesper, Angew. Chem. 2002, 114, 2554 A. L. Ivanovskii, Russian Chemical Reviews 71 (2002) 175 C.N.R.Rao, M. Nath, Dalton Trans. 2003, 1 R. Tenne, Angew. Chem. 2003, 115, 5280

  3. History Tubular Silicate minerals TEM investigation of the cross-sections of Chrysotile Scrolls of one or more layers But: also closed, concentric cylinders Yada, Acta Crystallogr. A27 (1971) 659

  4. History Misfit Layer Structures in Ternary Chalcogenides SEM images of tubular crystals in the system Bi-Nb-S Landa-Cánovas, Gómez-Herrero, Otero-Díaz, Micron 32 (2001) 491

  5. Nanotubes CRYSOTILE, Bi-Nb-S carbon boron nitride (BN, BxCyNz) boron carbide (BxC) silicon dioxide (amorphous) transition metaloxide (VOx, TiO2) metal sulfide (MoS2, WS2, NbS2, InS, CdS(e) transition metal halide (NiCl2) metal (Au, Ni, Bi, Te)

  6. BN Nanotubes

  7. BN Nanotubes

  8. BCx Nanotubes

  9. B-C-N Nanotubes

  10. B-C-N Nanotubes

  11. Nanotubes of Layered Materials WS2 WS2 MoS2

  12. Nanotubes of Dichalcogenides– MoX2 WS2 MoS2 Tenne, Margulis, Genut, Hodes, Nature 360 (1992) 444

  13. Nanotubes of Dichalcogenides– MoX2 WS2 WS2 MoS2 MoSe2 Tenne, Margulis, Genut, Hodes, Nature 360 (1992) 444 C.N.R. Rao et al, Chem. Commun., 2001, 2236–2237

  14. Nanotubes of Dichalcogenides– WX2 WS2 WSe2 WS2 Tenne, Margulis, Genut, Hodes, Nature 360 (1992) 444 C.N.R. Rao et al, Chem. Commun., 2001, 2236–2237

  15. Nanotubes of Dichalcogenides– W/Nb/Xy WS2 W-Nb-Sx NbSe2 WS2

  16. Nanotubes of Dichalcogenides– ReS2 WS2 W-Nb-Sx WS2

  17. Nanotube Tips of Dichalcogenides– WX2 WS2 WS2 WS2

  18. “TiO2” Nanotubes Kasuga, Hiramatsu, Hoson, Sekino, Niihara, Langmuir 14, (1998) 3160

  19. “TiO2” Nanotubes G. H. Du, Q. Chen, R. C. Che, Z. Y. Yuan, L.-M. Peng, APPLIED PHYSICS LETTERS VOLUME 79 (2001) 3702

  20. NiCl2 Nanotubes Y. R. Hacohen, E. Grunbaum, R. Tenne, J. Sloan, J. L. Hutchison, Nature (London) 395 336 (1998) CdCl2 structure types ! Multilayer NT were obtained; their cross-sections were up to ~7 nm, while the lengths were several micrometres. The tubular structures remained stable for a few days. It is assumed 136 that the most interesting applications of such structures may be related to their unusual magnetic characteristics. It should be noted that it is compounds which form phases with quasi-2D structures under equilibrium conditions that are usually considered as potential candidates for the synthesis of NT.

  21. Semiconductor Nanotubes

  22. Semiconductor Nanotubes

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