Biomedical Engineering Reference
In-Depth Information
69. Mamedov, A. A.; Kotov, N. A.; Prato, M.; Guldi, D. M.; Wicksted, J. P.; Hirsch, A. Molecular
Design of Strong Single-wall Carbon Nanotube/Polyelectrolyte Multilayer Composites.
Nat.
Mater.
2002,
1,
190-194.
70. Kerman, K.; Morita, Y.; Takamura, Y.; Tamiya, E.
Escherichia coli
Single-strand Binding
Protein-DNA Interactions on Carbon Nanotube-modified Electrodes from a Label-free Elec-
trochemical Hybridization Sensor.
Anal. Bioanal. Chem.
2005,
381,
1114-1121.
71. Yang, R.; Jin, J.; Chen, Y.; Shao, N.; Kang, H.; Xiao, Z.; Tang, Z.; Wu, Y.; Zhu, Z.; Tan, W.
Carbon Nanotube-quenched Fluorescent Oligonucleotides: Probes that Fluoresce upon
Hybridization.
JACS
2008,
130,
8351-8358.
72. Mwenifumbo, S.; Shaffer, M. S.; Stevens, M. M. Exploring Cellular Behaviour with Multi-
walled Carbon Nanotube Constructs.
J. Mater. Chem.
2007,
17,
1894-1902.
73. Tran, P. A.; Zhang, L.; Webster, T. J. Carbon Nanofibers and Carbon Nanotubes in Regenera-
tive Medicine.
Adv. Drug Deliv. Rev.
2009,
61,
1097-1114.
74. Correa-Duarte, M. A.; Wagner, N.; Rojas-Chapana, J.; Morsczeck, C.; Thie, M.; Giersig, M.
Fabrication and Biocompatibility of Carbon Nanotube-based 3dnetworks as Scaffolds for Cell
Seeding and Growth.
Nano Lett.
2004,
4,
2233-2236.
75. Mattson, M. P.; Haddon, R. C.; Rao, A. M. Molecular Functionalization of Carbon Nanotubes
and Use as Substrates for Neuronal Growth.
J. Mol. Neurosci.
2000,
14,
175-182.
76. Zagal, J. H.; Griveau, Z.; Nyokong, T.; Bedioui, F. Carbon Nanotubes, Phthalocyanines and
Porphyrins: Attractive Hybrid Materials for Electrocatalysis and Electroanalysis.
J. Nanosci.
Nanotech.
2009,
9,
2201-2214.
77. Poland, C. A.; Duffin, R.; Kinloch, I.; Maynard, A.; Wallace, W. A. H.; Seaton, A.; Stone, V.;
Brown, S., et al. Carbon Nanotubes Introduced into the Abdominal Cavity of Mice Show
Asbestos-like Pathogenicity in a Pilot-study.
Nat. Nanotech.
2008,
3,
423.
78. Martel, R.; Derycke, V.; Lavoie, C.; Appenzeller, J.; Chan, K. K.; Tersoff, J. Ambipolar Electrical
Transport in Semiconducting Single-wall Carbon Nanotubes.
Phys. Rev. Lett.
2001,
87,
256805.
79. Shvedova, A. A.; Kisin, E. R.; Porter, D.; Schulte, P.; Kagan, V. E.; Fadeel, B.; Castranova, V.
Mechanisms of Pulmonary Toxicity nd Medical Applications of Carbon Nanotubes.
Pharm.
Ther.
2009,
121,
192-204.
80. Porter, A.; Gass, M.; Muller, K.; Skepper, J. N.; Midgley, P. A.; Welland, M. Direct Imaging of
Single-walled Carbon Nanotubes in Cells.
Nat. Nanotech
2007,
2,
713-717.
81. Zumwalde, R.; Hodson, L.
Approaches to Safe Nanotechnology: Managing the Health and
Safety Concerns Associated with Engineered Nanomaterials
. 2009.
82. Lam, C. W.; James, J. T.; McCluskey, R.; Arepalli, S.; Hunter, R. L. A Review of Carbon
Nanotube Toxicity and Assessment of Potential Occupational and Environmental Health
Risks.
Crit. Rev. Toxicol.
2006,
36,
189-217.
83. Kolosnjaj, J.; Szwarc, H.; Mousa, F. Toxicity Studies of Carbon Nanotubes.
Adv. Exp. Med.
Biol.
2007,
620,
181-204.
84. Zhao, X.; Liu, R. Recent Progress and Perspectives on the Toxicity of Carbon Nanotubes at
Organism, Organ, Cell, and Biomacromolecule Levels.
Environ. Int.
2012,
40,
244-255.
85. Deguchi, S.; Alargova, R. G.; Tsujii, K. Stable Dispersions of Fullerenes, C
60
and C
70
, in
Water. Preparation and Characterization.
Langmuir
2001,
17,
6013-6017.
86. Sayes, C. M.; Fortner, J. D.; Guo, W.; Lyon, D.; Boyd, A. M.; Ausman, K. D.; Tao, Y. J.;
Sitharaman, B.; Wilson, L. J.; Hughes, J. B.; West, J. L.; Colvin, V. L. The differential Cyto-
toxicity of Water-soluble Fullerenes.
Nano Lett.
2004,
4,
1881-1887.
87. Oberdorster, E.; Zhu, S.; Blickley, T. M.; McClellan-Green, P.; Haasch, M. L. Ecotoxicology
of Carbon-based Engineered Nanoparticles: Effects of Fullerene (C
60
) on Aquatic Organisms.
Carbon
2006,
44,
1112-1120.
