Single-walled carbon nanotubes functionalization

M.S. Strano, C.A. Dyke, M.L. Usrey, P.W. Barone, MJ. Allen, H. Shan, C. Kittrell, R.H. Hauge, J.M. Tour, R.E. Smalley, Electronic structure control of single-walled carbon nanotube functionalization. Science 301, 1519-1522 (2003). [Pg.523]

Zaidi B, Bouzayen N, Wery J, Alimi K. Annealing treatment and carbon nanotubes concentration effects on the optical and vibrational properties of single walled carbon nanotubes functionalized with short oligo-n-vinyl carbazole. Mater Chem Phys 2011 126(l-2) 417-23. [Pg.42]

Khene S, Nyokong T (2012) Single walled carbon nanotubes functionalized with nickel phthalocyanines effects of point of substitution and nature of functionalization on the electro-oxidation of 4-chlorophenol. J Porphyrins Phthalocyanines 16(1) 130-139... [Pg.272]

Strano MC, Dyke CA, Ursa ML, Barone PW, Allen MJ, Shan H, Kittrell C, Hauge RH, Tour JM, Smalley RE (2003) Electronic structure crmtiol of single-walled carbon nanotube functionalization. Science 301 1519-1522... [Pg.471]

Fig. 19. The energy gap FJ, for a general chiral single-wall carbon nanotube as a function of 100 kidt, where dt is the nanotube diameter in A [179].

Zhang, L.W. et al. (2007) Biological interactions of functionalized single-wall carbon nanotubes in human epidermal keratinocytes. International Journal of Toxicology, 26 (2), 103-113. [Pg.210]

Alpatova, A.L. et al. (2010) Single-walled carbon nanotubes dispersed in aqueous media via noncovalent functionalization effect of dispersant on the stability, cytotoxicity, and epigenetic toxicity of nanotube suspensions. Water Research, 44 (2), 505-520. [Pg.210]

Sayes, C.M. et al. (2006) Functionalization density dependence of single-walled carbon nanotubes cytotoxicity in vitro. Toxicology Letters, 161 (2), 135—142. [Pg.211]

Liu, Z. et al. (2008) Circulation and longterm fate of functionalized, biocompatible single-walled carbon nanotubes in mice probed by Raman spectroscopy. Proceedings of the National Academy of Sciences of the U.S.A., 105 (5), 1410-1415. [Pg.214]

Kam, N.W.S. and Dai, H.J. (2005) Carbon nanotubes as intracellular protein transporters generality and biological functionality. Journal of the American Chemical Society, 127 (16), 6021-6026. Heller, D.A. et al. (2005) Single-walled carbon nanotube spectroscopy in live cells towards long-term labels and optical sensors. Advanced Materials, 17 (23), 2793-2799. [Pg.215]

Fig. 1.14 (A) Single-wall carbon nanotubes wrapped by glyco-conjugate polymer with bioactive sugars. (B) Modification of carboxyl-functionalized single-walled carbon nanotubes with biocompatible, water-soluble phosphorylcholine and sugar-based polymers. (A) adapted from [195] with permission from Elsevier, and (B) from [35] reproduced by permission of Wiley-VCH.

New applications of nitrile oxide 1,3-DC have been reported. Soluble, single-wall carbon nanotubes (SWNT) 32 functionalized with pentyl esters at the tips and pyridyl isoxazoline rings along the walls were prepared using pentyl ester-SWNT as dipolarophile. The complex... [Pg.291]

F. Pompeo and D. E. Resasco, Water solubilization of single-walled carbon nanotubes by functionalization with glucosamine, Nano Lett., 2 (2002) 369-373. [Pg.378]

Hirsch, A. (2002) Functionalization of single-walled carbon nanotubes. Angew. Chem. Int. Ed. 41, 1853-1859. [Pg.1073]

Nakashima, N., Tomonari, Y., and Murakami, H. (2002) Water-soluble single-walled carbon nanotubes via noncovalent sidewall-functionalization with a pyrene-carrying ammonium ion. Chem. Lett. 31, 638-639. [Pg.1097]

Scheme 6.197 Functionalization of fullerene and single-wall carbon nanotubes through cycloaddition chemistry.

S. Lefrant, I. Baltog, M. Baibarac, J. Schreiber, and O. Chauver, Modification of surface-enhanced Raman scattering spectra of single-walled carbon nanotubes as a function of nanotube film thickness. Phys. Rev. B 65, 235401.1- 235401.9 (2002). [Pg.523]

Chen RJ, Zhang Y G, Wang DW, Dai HJ(2001b)N oncovalent sidewall functionalization of single-walled carbon nanotubes for protein immobilization. J. Am. Chem. Soc. 123 3838-3839. [Pg.44]

Dwyer C, Guthold M, Falvo M, Washburn S, Superfine R, Erie D (2002) DNA-functionalized single-walled carbon nanotubes. Nanotechnology 13 601-604. [Pg.45]

Hu H, Ni YC, Mandal SK, Montana V, Zhao N, Haddon RC, Parpura V (2005). Polyethyleneimine functionalized single-walled carbon nanotubes as a substrate for Neuronal Growth. J. Phys. Chem. B 109 4285 4289. [Pg.216]

Karajanagi SS, Vertegel AA, Kane RS, Dordick JS (2004). Structure and function of enzymes adsorbed onto single-walled carbon nanotubes. Langmuir. 22 211-213. [Pg.217]

P. He, M.W. Urban, Controlled phospholipid functionalization of single-walled carbon nanotubes, Biomacromolecules, vol. 6, pp. 2455-2457, 2005. [Pg.113]

A. Ghosh, K.V. Rao, R. Voggu, S. J. George, Non-covalent functionalization, solubilization of graphene and single-walled carbon nanotubes with aromatic donor and acceptor molecules, Chemical Physics Letters, vol. 488, pp. 198-201, 2010. [Pg.114]

X. Liu, R.H. Hurt, A.B. Kane, Biodurability of single-walled carbon nanotubes depends on surface functionalization, Carbon, vol. 48, pp. 1961-1969., 2010. [Pg.120]

Tan, Z., H. Abe, and S. Ohara, Ordered deposition of Pd nanoparticles on sodium dodecyl sulfate-functionalized single-walled carbon nanotubes. Journal of Materials Chemistry, 2011. 21(32) p. 12008-12014. [Pg.159]

Qin, S., et al., Functionalization of single-walled carbon nanotubes with polystyrene via grafting to and grafting from methods. Macromolecules, 2004. 37(3) p. 752-757. [Pg.162]

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