Biomedical Engineering Reference
In-Depth Information
107.
Abarrategi, A., Gutiérrez, M. C., Moreno-Vicente, C., Hortigüela, M. J., Ramos,
V., Lòpez-Lacomba, J. L., Ferrer, M. L., and Monte, F. (2008) Multiwall carbon
nanotube scaffolds for tissue engineering purposes,
Biomaterials
,
29
, 94-102.
108.
Wang, W., Watari, F., Omori, M., Liao, S., Zhu, Y., Yokoyama, A., Uo, M., Kimura,
H., and Ohkubo, A. (2006) Mechanical properties and biological behavior of
carbon nanotube/polycarbosilane composites for implant materials,
J. Biomed.
Mat. Res. B: Appl. Biomater.
,
82B
, 223-230.
109.
Mattson, M. P., Haddon, R. C., and Rao, A. M. (2000) Molecular functionalization
of carbon nanotubes and use as substrates for neuronal growth,
J. Mol. Neurosci.
,
14
, 175-182.
110.
Gheith, M. K., Sinani, V. A., Wicksted, J. P., Matts, R. L., and Kotov, N. A. (2005)
Single-walled carbon nanotube polyelectrolyte multilayers and freestanding
ilms as a biocompatible platform for neuroprosthetic implants,
Adv. Mater.
,
17
, 2663-2670.
111.
Gheith, M. K., Pappas, T. C., Liopo, A. V., Sinani, V. A., Shim, B. S., Motamedi, M.,
Wicksted, J. P., and Kotov, N. A. (2006) Stimulation of neural cells by lateral
currents in conductive layer-by-layer ilms of single-walled carbon nanotubes,
Adv. Mater.
,
18
, 2975-2979.
112.
Gabay, T., Jakobs, E., Ben-Jacob, E., and Hanein, Y. (2005) Electrochemical
properties of carbon nanotube based multielectrode arrays,
Physica A
,
350
,
611-621.
113.
Zhang, X., Prasad, S., Niyogi, S., Morgan, A., Ozkan, M., and Ozkan, C. S. (2005)
Guided neurite growth on patterned carbon nanotubes,
Sens. Actuators B
,
106
,
843-850.
114.
Hu, H., Ni, Y., Montana, V., Haddon, R. C., and Parpura, V. (2004) Chemically
functionalized carbon nanotubes as substrates for neuronal growth,
Nano
Lett.
,
4
, 3507-511.
115.
Ago, H., Uchimura, E., Saito, T., Ohshima, S., Ishigami, N., Tsuji, M., Yumura, M.,
and Miyake, M. (2006) Mechanical immobilization of Hela cells on aligned
carbon nanotube array,
Mater. Lett.
,
60
, 3851-3854.
116.
MacDonald, R. A., Laurenzi, B. F., Viswanathan, G., Ajayan, P. M., and Stegemann,
J. P. (2009) Collagen-carbon nanotube composite materials as scaffolds in
tissue engineering,
J
.
Biomed
.
Mater
.
Res
.
A
,
74A
, 489-496.
117.
Meng, J., Song, L., Meng, J., Kong, H., Zhu, G., Wang, C., Xu, L., Xie, S., and Xu,
H. (2009) Using single-walled carbon nanotubes nonwoven ilms as scaffolds
to enhance long-term cell proliferation in vitro,
J
.
Biomed
.
Mater
.
Res
.
A
,
74A
,
298-306.
118.
Correa-Duarte, M. A., Wagner, N., Rojas-Chapana, J., Morsczeck, C., Thie, M.,
and Giersig, M. (2004). Fabrication and biocompatibility of carbon nanotube-
based 3D networks as scaffolds for cell seeding and growth,
Nano Lett.
,
4
,
2233-2236.
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