Biomedical Engineering Reference
In-Depth Information
62. Goel A and Howard JB. Reaction rate coefficient of fullerene (C
60
) consumption by soot.
Carbon
,
41 (2003) 1949-1954.
63. Geim AK and Novoselov KS. The rise of graphene.
Nature Materials
, 6 (2007) 183-191.
64. Alwarappan S, Erdem A, Liu C, and Li C-Z. Probing the electrochemical properties of graphene
nanosheets for biosensing applications.
Journal of Physical Chemistry C
, 113 (2009) 8853-8857.
65. Stankovich S, Dikin DA, Piner RD, Kohlhass KA, Kleinhammes A, Jia Y, Wu Y, Nguyen S, and
Ruoff RS. Synthesis of graphene-based nanosheets
via
chemical reduction of exfoliated graphite
oxide.
Carbon
, 45 (2007) 1558-1565.
66. Brodie BC. Sur le poids atomique du graphite
Annals of Chemical Physics
, 59 (1860) 466-472.
67. Hummers W and Offeman R. Preparation of graphitic oxide.
Journal of American Chemical
Society
, 80 (1958) 1339.
68. Staudenmaier L. Verfahren zur Darstellung der Graphitsäure Berichte
der
deutschen
chemischen
Gesellschaft
, 31 (1898) 1481-1487.
69. Wang X, You H, Liu F, Li M, Li W, Li S, Li Q, Xu Y, Tian R, Yu Z, Xiang D, and Cheng J.
Large scale synthesis of few-layered graphene using CVD.
Chemical Vapor Deposition
, 15 (2009)
53-56.
70. Kostas K, Lara L, Giorgia P, Wei W, Sébastien W, Jacqueline L, Sylvie G, Davide P, Jean-Paul B,
Sylviane M, Maurizio P, and Alberto B. Cellular uptake of functionalized carbon nanotubes is
independent of functional group and cell type.
Nature Nanotechnology
, 2 (2007) 108-113.
71. Bianco A, Hoebeke J, Godefroy S, Chaloin O, Pantarotto D, Briand JP, Muller S, Prato M, and
Partidos C D. Cationic carbon nanotubes bind to CpG oligodeoxynucleotides and enhance their
immunostimulatory properties.
Journal of American Chemical Society
, 127 (2005) 58-59.
72. Pastorin G, Wu W, Wieckowski S, Briand JP, Kostarelos K, Prato M, and Bianco A. Double func-
tionalisation of carbon nanotubes for multimodal drug delivery.
Chemical Communications
11
(2006) 1182-1184.
73. Chou A, Bocking T, Singh NK, and Gooding JJ. Demonstration of the importance of oxygen-
ated species at the ends of carbon nanotubes for their favourable electrochemical properties.
Chemical Communications
, 7 (2005) 842-844.
74. Boussaad S, Tao NJ, Zhang R, Hopson T, and Nagahara LA.
In situ
detection of cytochrome
c adsorption with single walled carbon nanotube device.
Chemical Communications
, 13 (2003)
1502-1503.
75. Chen X, Tam UC, Czlapinski JL, Lee GS, Rabuka D, Zettl A, and Bertozzi CR. Interfacing carbon
nanotubes with living cells.
Journal of
American Chemical Society
, 128 (2006) 6292-6293.
76. Guiseppi-Elie A, Lei CH, and Baughman RH. Direct electron transfer of glucose oxidase on
carbon nanotubes.
Nanotechnology
, 13 (2002) 559-564.
77. Salvador-Morales C, Flahaut E, Sim E, Sloan J, Green MLH, and Sim RB. Complement activa-
tion and protein adsorption by carbon nanotubes.
Molecular Immunoogy
, 43 (2006) 193-201.
78. Salvador-Morales C, Townsend P, Flahaut E, Venien-Bryan C, Vlandas A, Green MLH, and Sim
RB. Binding of pulmonary surfactant proteins to carbon nanotubes; potential for damage to
lung immune defense mechanisms.
Carbon
, 45 (2007) 607-617.
79. Liu Z, Winters M, Holodniy M, and Dai HJ. siRNA delivery into human T cells and primary
cells with carbon-nanotube transporters.
Angewandte Chemie International Edition
,
46 (2007)
2023-2027.
80. Hu H, Ni YC, Montana V, Haddon RC, and Parpura V. Chemically functionalized carbon nano-
tubes as substrates for neuronal growth.
Nano Letters
, 4 (2004) 507-511.
81. Gheith MK, Sinani VA, Wicksted JP, Matts RL, and Kotov NA. Single walled carbon nanotube
polyelectrolyte multilayers and freestanding films as a biocompatible platform for neuropros-
thetic implants.
Advanced Materials
, 17 (2005) 2663-2670.
82. Gheith MK, Pappas TC, Liopo AV, Sinani VA, Shim BS, Motamedi M, Wicksted JR, and Kotov
NA. Stimulation of neural cells by lateral layer-by-layer films of single-walled currents in con-
ductive carbon nanotubes.
Advanced Materials
, 18 (2006) 2975-2979.
83. Bianco A, Kostarelos K, and Prato M. Applications of carbon nanotubes in drug delivery.
Current Opinion in Chemical Biology
, 9 (2005) 674-679.
© 2011 by Taylor & Francis Group, LLC
