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Synthesis chemical vapor deposition

P. Coquay, E. Flahaut, E. de Grave, A. Peigney, R.E. Vandenberghe, and C. Laurent, Fe/Co alloys for the catalytic chemical vapor deposition synthesis of single- and double-walled carbon nanotubes (CNTs). 2. The CNT-Fe/Co-MgAl204 system. J. Phys. Chem. B 109, 17825-17830 (2005). [Pg.518]

J. Campos-Delgado, I. 0. Maciel, D. A. Cuiien, D.J. Smith, A. Jorio, M. A. Pimenta, H. Terrones, M. Terrones, Chemical vapor deposition synthesis of N-, P-, and Si-doped singie-waiied carbon nanotubes, ACS Nano, vol. 4, pp. 1696-1702, 2010. [Pg.108]

Li, Y.-L., I.A. Kinloch, and A.H. Windle, Direct Spinning of Carbon Nanotube Fibers from Chemical Vapor Deposition Synthesis. Science, 2004. 304(5668) p. 276-278. [Pg.169]

Chemical Vapor Deposition synthesis of aligned nanotube films... [Pg.962]

Figure 1.6. Carbon nanotube structures obtained by chemical vapor deposition synthesis, (a) SEM image of self-oriented MWNT arrays. Each tower-like structure is formed by many closely packed multiwalled nanotubes, (b) SEM top view of a hexagonal network of SWNTs (line-like structures) suspended on top of silicon posts (bright dots), (c) SEM top view of a square network of suspended SWNTs, (d) Side view of a suspended SWNT power line on silicon posts (bright) and (e) SWNTs suspended by silicon structures (bright regions). Reproduced from reference 3 with permission from American Chemical Society. Figure 1.6. Carbon nanotube structures obtained by chemical vapor deposition synthesis, (a) SEM image of self-oriented MWNT arrays. Each tower-like structure is formed by many closely packed multiwalled nanotubes, (b) SEM top view of a hexagonal network of SWNTs (line-like structures) suspended on top of silicon posts (bright dots), (c) SEM top view of a square network of suspended SWNTs, (d) Side view of a suspended SWNT power line on silicon posts (bright) and (e) SWNTs suspended by silicon structures (bright regions). Reproduced from reference 3 with permission from American Chemical Society.
Bondi, S. N., et al. (2006), Laser assisted chemical vapor deposition synthesis of carbon nanotubes and their characterization, Carbon, 44,1393-1403. [Pg.1315]

Li YL, Kinloch lA, Windle AH (2004) Direct spinning of carbon nanotube fibers from chemical vapor deposition synthesis. Science 304 276... [Pg.45]

Simon P, Mang S, Hasenhindl A, Gronski W, Greiner A. Poly(p-xylylene) and its derivatives by chemical vapor deposition synthesis, mechanism, and structure. Macromolecules 1998 31 8775-80. [Pg.64]

Thermodynamics of Chemical Vapor Deposition - Synthesis Methods... [Pg.62]

Xie, J., Mukhopadyay, K., Yadev, J., Varadan, V. K., Catalytic Chemical Vapor Deposition Synthesis and Electron Microscopy Observation of Coiled Carbon Nanotubes, Smart Mater. Struct., 12,744-748 (2003). [Pg.1512]


See other pages where Synthesis chemical vapor deposition is mentioned: [Pg.58]    [Pg.195]   


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