Biomedical Engineering Reference
In-Depth Information
33. Li, C., Curreli, M., Lin, H., Lei, B., Ishikawa, F. N., Datar, R., Cote, R., Thompson,
M., and Zhou, C. J. (2005) Complementary detection of prostate-speciic
antigen using In2O3 nanowires and carbon nanotubes,
J. Am. Chem. Soc.
,
127
,
12484-12485.
34. Ju, S. Y., Doll, J., Sharma, I., and Papadimitrakopoulos, F. (2008) Selection of
carbon nanotubes with speciic chiralities using helical assemblies of lavin
mononucleotide,
Nat. Nanotechnol.
,
3
, 356-362.
35. Richard, C., Balavoine, F., Schultz, P., Ebbesen, T. W., and Mioskowski, C. (2003)
Supramolecular self-assembly of lipid derivatives on carbon nanotubes,
Science
,
300
, 775-778.
36. Guo, X., Gorodetsky, A. A., Hone, J. Barton, J. K., and Nuckolls, C. (2008)
Conductivity of a single DNA duplex bridging a carbon nanotube gap,
Nat.
Nanotechnol.
,
3
, 163-167.
37.
Roy, S., Vedala, H., Roy, A. D., Kim, D. H., Doud, M., Mathee, K., Shin, H. K.,
Shimamoto, N., Prasad, V., and Choi, W. (2008) Direct electrical measurements
on single-molecule genomic DNA using single-walled carbon nanotubes,
Nano
Lett.
,
8
, 26-30.
38.
Cai, H., Cao, X., Jiang, Y., He, P., and Fang, Y. (2003) Carbon nanotube-enhanced
electrochemical, DNA biosensor for DNA hybridization detection,
Anal. Bioanal.
Chem.
,
375
, 287-293.
39.
Li, J., Ng, H. T., Cassell, A., Fan, W., Chen, H., Ye, Q., Koehne, J., Han, J., and
Meyyappan, M. (2003) Carbon nanotube nanoelectrode array for ultrasensitive
DNA detection,
Nano Lett.
,
3
, 597-602.
40.
Dai, H., Hafner, J. H., Rinzler, A. G., Colbert, D. T., and Smalley, R. E. (1996)
Nanotubes as nanoprobes in scanning probe micrscopy,
Nature
,
384
,
147-150.
41.
Hafner, J. H., Cheung, C. L., and Leiber, C. M. (1999) Growth of nanotubes for
probe microscopy tips,
Nature
,
398
, 761-762.
42.
Cheung, C. L., Hafner, J. H., and Lieber, C. M. (2000) Carbon nanotube atomic
force microscopy tips: Direct growth by chemical vapor deposition and
application to high-resolution imaging,
PNAS
,
97
, 3809-3813.
43.
Wong, S. S., Joselevich, E., Woolley, A. T., Cheung, C. L., and Lieber, C. M. (1998)
Covalently functionalized nanotubes as nanometresized probes in chemistry
and biology,
Nature
,
394
, 52-55.
44.
Král, P., and Shapiro, M. (2001) Nanotube electron drag in fowing liquids,
Phys.
Rev. Lett.
,
86
, 131-134.
45.
Ghosh, S., Sood, A. K., and Kumar, N. (2003) Carbon nanotube low sensors,
Science
,
299
, 1042-1044.
46.
Avouris, P., Chen, Z., and Perebeinos, V. (2008) Carbon-based electronics,
Nat.
Nanotechnol.
,
2
, 605-615.
47.
O'Connell, M. J., Bachilo, S. M., Huffman, C. B., Moore, V. C., Strano, M. S., Haroz, E.
H., Rialon, K. L., Boul, P. J., Noon, W. H., Kitrell, C., Ma, J., Hauge, R. H., Weisman,
R. B., and Smalley, R. E. (2002) Band gap luorescence from individual single-
walled carbon nanotubes,
Science
,
297
, 593-596.
Search WWH ::
Custom Search