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Filled carbon nanotubes

Meincke O, Kaempfer D, Weickmann H, Friedrich C, Vathauer M, Warth H (2004). Mechanical properties and electrical conductivity of carbon-nanotube filled polyamide-6 and its blends with acrylonitrile/butadiene/styrene. Polymer 45 739-748. [Pg.218]

Fig. 10.16 Carbon nanotubes filled with quantum dots in a sodium alginate carrier solvent. The alginate encloses the dots into the tubes by sealing the tube ends. A large majority of excess alginate around the tubes was removed by repeated washing (Reprinted from Nadarajan et al., 2007. With permission from Elsevier) (See Color Plates)... [Pg.250]

Dalmas F, Dendievel R, Chazeau L, Cavaille JY, Gauthier C (2006) Carbon nanotube-filled polymer of electrical conductivity in composites. Numerical simulation three-dimensional entangled fibrous networks. Acta Materialia 54 2923-2931. [Pg.259]

P. M. F. J. Costa, J. Sloan and M. L. H. Green, Structural studies on single- and double-walled carbon nanotubes filled with ionic and covalent compounds. Ciencia e Tecnologia dos Materials 18, no. 3-4, 78-82 (2006). [Pg.810]

Gao, X.P., Zhang, Y., and Chen, X., (2004) Carbon nanotubes filled with metallic nanowires, Carbon, 42, 47-52. [Pg.60]

Zhang RH, Yang YK, Xie XL et al (2010) Dispersion and crystallization studies of hyperbranched poly(urea-urethane)s-grafted carbon nanotubes filled polyamide-6 nanocomposites. Compos A Appl Sci Manuf 41 670-677... [Pg.427]

Corio, R, A. P. Santos, P. S. Santos, M. L. A. Temperini, V. W. Brar, M. A. Pimenta, and M. S. Dresselhaus. 2004. Characterization of single wall carbon nanotubes filled with silver and with chromium compounds. Chemical Physics Letters 383 475. [Pg.172]

Hampel S, Kunze D, Haase D, et al. Carbon nanotubes filled with a chemotherapeutic agent a nanocarrier mediates inhibition of tumor cell growth. Nanomedicine 2008 3 175-182. [Pg.266]

N.A., Alexander, M., Vaia, R.A., 2004. Remotely actuated polymer nancxomposites—stress-recovery of carbon-nanotube-filled thermoplastic elastomers. Nat Mater. 3, 115-120. Copyright 2004, Macmillan Publishers Ltd. (B) Reproduced with permission from reference Yu, A., Meiser, F., Cassagneau, T., Caruso, F., 2004. Fabrication of polymer-nanopartide composite inverse opals by a one-step electrochemical co-deposition process. Nano Lett 4, 177-181. Copyright 2004, American Chemical Society. (C) Reproduced with permission from reference Fie, X., Shi, Q., Zhou, X., Wan, C., Jiang,... [Pg.118]

Prashantha, K Soulestin, J. Lacrampe, M. Krawczak, P. Dupin, G. Claes, M. (2009) Masterbatch-Based Multi-Walled Carbon Nanotube Filled Polypropylene Nanocomposites Assessment of Rheological and Mechanical Properties. Compos. Sci Technol. Vol.69, No.11-12, p>p.l756-1763... [Pg.388]

P. Saini, V. Choudhary, Enhanced Electromagnetic Interference Shielding Effectiveness of Polyaniline Functionalized Carbon Nanotubes Filled Polystyrene Composites. J. Nanopart. Res. 2013,15. [Pg.88]

Koerner, H., Price, G., Pearce, N.A., Alexander, M., Vaia, R.A. (2004) Remotely actuated polymer nanocomposites - stress-recovery of carbon-nanotube-filled thermoplastic elastomers. Nature Materials, 3, 115-120. [Pg.105]

Prashantha, K., Soulestin, J., Lacrampe, M. R, Claes, M., Dupin, G., and Krawczak, P. 2008. Multi-walled carbon nanotube filled polypropylene nanocomposites based on masterbatch route Improvement of dispersion and mechanical properties through PP-g-MA addition. Express Polymer Letters 2 735-745. [Pg.262]

Ko, F. et al. Electrospinning of continuous carbon nanotube-filled nanofiber yams. Adv. Mater. 15, 1161-1165 (2003). [Pg.597]

Yang YL, Gupta MC, Dudley KL, Lawrence RW (2005) A Comparative Study of EMI Shielding Properties of Carbon Nanofiber and Multi-Walled Carbon Nanotube Filled Polymer Composites. J. nanosci. nanotechnol. 5 927-931. [Pg.199]

Potschke, P., Bhattacharyya, A.R., and Janke, A. (2003) Morphology and electrical resistivity of melt mixed blends of polyethylene and carbon nanotube filled polycarbonate. Polymer, 44, 8061. [Pg.371]

Wang, P. Geng, S. Ding, T., Effects of Carboxyl Radical on Electrical Resistance of Multi-Walled Carbon Nanotube Filled Silicone Rubber Composite Under Pressure. Comp. Sci. Tech. 2010, 70,1571-1573. [Pg.252]

Kim Y H, Hayashi T, Endo M, Gotoh Y, Wada N and Seiyama J (2006) Fabrication of aligned carbon nanotube-filled rubber composite, Scr Mater 54 31-35. [Pg.223]

Seo M K and Park S J (2004) Electrical resistivity and rheological behaviors of carbon nanotube-filled polypropylene composites, Chem Phys Lett 395 44-48. [Pg.224]

Ko F, Gogotsi Y, Ali A, Naguib N, Ye H, Yang G, Li G and WiUs P (2003) Electrospinning of continuous carbon nanotube-filled nanofiber yarns, Adv Mater 15 1161-1165. [Pg.246]

Figures 6.22 and 6.23 are reprinted from Chemical Physics Letters, Vol. 395, 2004, Authors Seo M K and Park S J, Title Electrical resistivity and rheological behaviors of carbon nanotube-filled polypropylene composites, pp. 44-48, Copyright (2011), with permission from Elsevier Ltd. [Pg.773]

Chen YK, Green MLH, Tsang SC. Synthesis of carbon nanotubes filled with long continuous crystals of molybdenum oxides. Chem Commun 1996 2489-90. [Pg.149]

Liu S, Zhu J, Mastai Y, Felner I, Gedanken A. Preparation and characteristics of carbon nanotubes filled with cobalt. Chem Mater 2000 12 2205-11. [Pg.155]

Weissker U, Hampel S, Leonhardt A, B uchnerB. Carbon nanotubes filled with ferromagnetic materials. Materials 2010 3 4387-427. [Pg.417]

See other pages where Filled carbon nanotubes is mentioned: [Pg.5979]    [Pg.224]    [Pg.5978]    [Pg.138]    [Pg.144]    [Pg.264]    [Pg.2368]    [Pg.217]    [Pg.636]    [Pg.234]    [Pg.152]    [Pg.201]   
See also in sourсe #XX -- [ Pg.804 ]



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