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Carhon nanotuhes

Environmental assessment of single-walled carhon nanotuhe processes. /. Ind. Ecol., 12 (3), 376-393. [Pg.247]

Maynard, A.D., Baron, P.A., Foley, M., Shvedova, A.A., Kisin, E.R. and Castranova, V. (2004) Exposure to carbon nanotube material aerosol release during the handling of unrefined single-walled carhon nanotuhe material. /. Toxicol. Environ. Health A, 67, 87—107. [Pg.247]

Zheng M, Jagota A, Semke ED, Diner BA, McLean RS, Lustig SR, Richardson RE, Tassi NG. DNA-assisted dispersion and separation of carhon nanotuhes. Nature Materials 2003, 2, 338-342. [Pg.328]

Cui DX, Tian FR, Ozkan CS, Wang M, Gao HJ. Effect of single wall carhon nanotuhes on human HEK293 cells. Toxicology Letters 2005, 155, 73-85. [Pg.328]

Figure 9 Transmission electron micrographs of nonplanar, carhon structures in which the inter-layer distances correspond to graphitic spacing ( 3.4A). (a) MultisheU carbon onions. (Reprinted with permission of MacmiUan from D. Ugarte. ) (h) Carhon nanotuhes. (Reprinted with permission of Macmillan from T.W. Ehhesen and P.M. Ajayan. )... Figure 9 Transmission electron micrographs of nonplanar, carhon structures in which the inter-layer distances correspond to graphitic spacing ( 3.4A). (a) MultisheU carbon onions. (Reprinted with permission of MacmiUan from D. Ugarte. ) (h) Carhon nanotuhes. (Reprinted with permission of Macmillan from T.W. Ehhesen and P.M. Ajayan. )...
Che G, Lakshmi B, Martin C, Fisher E, Ruoff R (1998) Chemical vapor deposition based synthesis of carhon nanotuhes and nanofi-hers using a template method. Chem Mater 10 260-267. [Pg.703]

Chapter 15 Electrochemical sensors based on carhon nanotuhes... [Pg.609]

Crespi, V. H., Chopra, N. G., Cohen, M. L., Zettl, A., and Louie, S. G. 1996. Anisotropic electron-beam damage and the collapse of carhon nanotuhe. Physical Review B 54 5927-5931. [Pg.487]

J.M. Bonard, P. Chauvin, and C. Klinke, Monodisperse multiwall carhon nanotuhes. Nano Lett., 2, 665-667 (2002). [Pg.253]

K. Balasubramanian, R. Sordan, M. Burghard, and K. Kern, A selective electrochemical approach to carhon nanotuhe field-effect transistors. Nano Lett., 4, 827-830 (2004). [Pg.256]

Sandler, J., Shaffer, M. S. R, Prasse, T., Bauhofer, W., Schulte, K., and Windle, A. H., Development of dispersion process for carhon nanotuhes in an epoxy matrix and the resulting electrical properties. Polymer, 40, 5967—5971 (1999). [Pg.549]

GHI 11] Ghtmrett C.M., Raymunbo-PINERO E., FIOUX P., et al., Vanadium nitride/carhon nanotuhe nanocomposites as electrodes for supercapacitors . Journal of Materials Chemistry, vol. 21, pp. 13268-13275, 2011. [Pg.86]

Goh, P.S., Ismail, A.F., Ng, B.C., 2014. Directional alignment of carhon nanotuhes in polymer matrices contemporary approaches and future advances. Composites A Appl. Sd. Manuf. 56 (January), 103—126. Available from http //dx.doi.0rg/lO.lOl6/j. compositesa.2013.10.001. [Pg.360]

Chiou, Y. D., D. S. Tsai, H. H. Lam, C. H. Chang, K. Y. Lee, and Y. S. Huang. 2013. Cycle stability of the electrochemical capacitors patterned with vertically aligned carhon nanotuhes in an LiPF -hased electrolyte. Nanoscale 5 8122-8129. [Pg.248]

Suner S, Bladen CL, Gowland N, Tipper JL, Emami N. Investigation of wear and wear particles from a UHMWPE/multi-walled carhon nanotuhe nanocomposite for total joint... [Pg.167]

Baibarac M, Gomez-Romero P, Lira-Cantu M, Casan-Pastor N, Mestres N, Lefrant S. Electrosynthesis of the poly(A-vinyl carhazole)/ carhon nanotuhes composite for applications in the supercapacitors field. Eur Polym J 2006 42(10) 2302-12. [Pg.33]

Wang ZL, Poncharal P, de Heer WA. Measuring physical and mechanical properties of individual carhon nanotuhes hy in-situ TEM. J Phys Chem Sohds 2000 61 1025-30. [Pg.83]

Choi GS, Cho YS, Hong SY, Park IB, Son KH, Kim DJ. Carhon nanotuhes synthesized by Ni-assisted atmospheric pressure thermal chemical vapor deposition. 1 Appl Phvs 2002 91 3847-54. [Pg.175]

Uchino T, Hutchison JL, Ayre GN, Smith DC, De Groot K, Ashbum P. Metal-catalyst-free growth of silica nanowires and carhon nanotuhes using Ge nanostructures. Jpn J Appl Phys 2011 50 1-18. [Pg.177]

Heeres EC, Oosterkamp TH, de Jonge N. Size of the localized electron emission sites on a closed multiwaUed carhon nanotuhe. Phys Rev Lett 2012 108 036804-036804. [Pg.185]

Wilkinson TD, Wang X, Teo KBK, Milne WI. Sparse multiwall carhon nanotuhe electrode arrays for liquid-crystal photonic devices. Adv Mater 2008 20 363-6. [Pg.186]

Sumita M, Tsukumo Y, Miyasaka K et al (1983) Tensile yield stress of polypropylene composites filled with ultrafine particles. J Mater Sci 18 1758—1764 Thellen C, Orroth C, Froio D et al (2005) Influence of montmorillonite layered silicate on plasticized poly(l-lactide) blown films. Polymer 46 1716-11727 Uyama H, Kuwabara M, Tsujimoto T et al (2003) Green nanocomposites from renewable resources plant oil-clay hybrid materials. Chem Mater 15 2492-2494 Wang SF, Shen L, Zhang WD et al (2005a) Preparation and mechanical properties of chitosan/ carhon nanotuhes composites. Biomactomolecules 6 3067—3072... [Pg.534]

Warheit, D.B., Laurence, B.R., Reed, KL., et al., 2004. Comparative pulmonary toxicity assessment of single-wall carhon nanotuhes in rats. Toxicology Science 77 (1), 117-125. [Pg.48]

Selvaraj V, Alagar M. Pt and PtRu nanoparticles decorated polypyrrole/multiwalled carhon nanotuhes and their catalytic activity towards methanol oxidation. Electrochem Comm 2007 9 1145-53. [Pg.287]

Tian Z, Jiang S, Liang Y, Shen P. Synthesis and characterization of platinum catalysts on multiwalled carhon nanotuhes hy intermittent microwave irradiation for fuel cell apphcations. J Phys Chem B 2006 10 5343-50. [Pg.543]

Saito R, Dresselhaus G, Dresselhaus MS. Physical properties of carhon nanotuhes. London Imperial College Press, 1998. [Pg.704]

Lee K, Zhang J, Wang H, Wilkinson D. Progress in the synthesis of carhon nanotuhe-and nanofiher supported Pt eleetroeatalysts for PEM fuel cell catalysis. J Appl Electrochem 2006 36 507-22. [Pg.1094]

Liu Yaodong, and Satish Kumar. Polymer/carhon nanotuhe nano composite fibers—A review. [Pg.115]

Nagano, T., Y. Ishikawa, and N. Shihata, Effects of surface oxides of SiC on carhon nanotuhe formation hy surface decomposition. Japanese Journal of Applied Physics Part 1-Regular Papers Short Notes and Review Papers, 2003.42(3) 1380-1385. [Pg.132]

Kumar A, Pushparaj VL. et al.. Contact transfer of ahgned carhon nanotuhe arrays onto conducting substrates. Applied Physics Letters, 2006. 89(16) 163120. [Pg.249]

Zhang Q, Huang JQ. et al., Carhon nanotuhe mass production Ihinciples and processes. Chemsuschem, 2011.4(7) 864-889. [Pg.249]

Ghosh, S. and C. N. R. Rao. Separation of metallic and semiconducting single-walled carhon nanotuhes through fluorous chemistry. Nano Res. 2, 2009 183-191. [Pg.211]

Nan, C.-W., Shi, Z., Lin, Y., 2003. A simple model for thermal conductivity of carhon nanotuhe-hased composites. Chemical Physics Letters 375, 666—669. [Pg.97]

See other pages where Carhon nanotuhes is mentioned: [Pg.310]    [Pg.253]    [Pg.253]    [Pg.254]    [Pg.256]    [Pg.256]    [Pg.530]    [Pg.261]    [Pg.539]    [Pg.198]    [Pg.7481]    [Pg.543]    [Pg.142]    [Pg.165]   
See also in sourсe #XX -- [ Pg.110 , Pg.111 ]



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