Biomedical Engineering Reference
In-Depth Information
[17]
Rubianes, M. D., Rivas, G. A. (2003) Carbon nanotubes paste electrode.
Electrochem. Commun.
5: 689-694.
[18]
Valentini, F., Amine, A., Orlanducci, S., Terranova, M. L., Palleschi, G. (2003) Carbon nanotube
purification: preparation and characterization of carbon nanotube paste electrodes.
Anal.
Chem
. 75: 5413-5421.
[19]
Wang, J., Musameh, M. (2004) Carbon nanotube screen-printed electrochemical sensors.
Analyst
129: 1-2.
[20]
Hrapovic, S., Liu, Y., Male, K. B., Luong, J. H. T. (2004) Electrochemical biosensing platforms
using platinum nanoparticles and carbon nanotubes.
Anal. Chem
. 76: 1083-1088.
[21]
Luo, X.-L., Xu, J.-J., Wang, J.-L., Chen, H.-Y. (2005) Electrically deposited nanocomposite of
chitosan and carbon nanotubes for biosensor application.
Chem. Commun
. 2169-2171.
[22]
Davis, J. J., Coleman, K. S., Azamian, B. R., Bagshaw, C. B., Green, M. L. H. (2003) Chemical
and biochemical sensing with modified single walled carbon nanotubes.
Chem. Eur. J
. 9:
3732-3739.
[23]
Gao, M., Dai, L., Wallace, G. G. (2003) Biosensors based on aligned carbon nanotubes coated
with inherently conducting polymers.
Electroanalysis
15: 1089-1094.
[24]
Lin, Y., Lu, F., Tu, Y., Ren, Z. (2004) Glucose biosensors based on carbon natotube nanoelec-
trode ensembles.
Nano. Lett.
2: 191-195.
[25]
Qiaocui, S., Tuzhi, P., Yunu, Z., Yang, C. F. (2005) An electrochemical biosensor with choles-
terol oxidase/sol-gel film on a nanoplatinum/carbon nanotube electrode.
Electroanalysis
17:
857-861.
[26]
Ruianes, M. D., Rivas, G. A. (2005) Enzymatic biosensors based on carbon nanotubes paste
electrodes.
Electroanalysis
17: 73-78.
[27]
Wang, J., Musameh, M. (2003) A reagentless amperometric alcohol biosensor based on carbon-
nanotube/Teflon composite electrodes.
Anal. Lett
. 36: 2041-2048.
[28]
Zhang, M., Smith, A., Gorski, W. (2004) Carbon nanotube-chitosan system for electrochemical
sensing based on dehydrogenase enzymes.
Anal. Chem
. 76: 5045-5050.
[29]
Zhang, M., Gorski, W. (2005) Electrochemical sensing platform based on the carbon nan-
otubes/redox mediators-biopolymer system.
J. Am. Chem
.
Soc
. 127: 2058-2059.
[30]
Lin, Y., Lu, F., Wang, J. (2004) Disposable carbon nanotube modified screen-printed biosensor
for amperometric detection of organophosphorus pesticides and nerve agents.
Electroanalysis
16: 145-149.
[31]
Joshi, K. A., Tang, J., Haddon, R., Wang, J., Chen, W., Mulchandani, A. (2005) A disposable
biosensor for organophosporus nerve agents based on carbon nanotubes modified thick film
strip electrode.
Electroanalysis
17: 54-58.
[32]
Gooding, J. J., Wibowo, R., Liu, J. Q., Yang, W., Losic, W. D., Orbons, S., Mearns, F. J., Shapter,
J. G., Hibbert, D. B. (2003) Protein electrochemistry using aligned carbon nanotube arrays.
J.
Am. Chem. Soc.
125: 9006-9007.
[33]
Guiseppi-Elie, A., Lei, C., Baughman, R. (2002) Direct electron transfer of glucose oxidase on
carbon nanotubes.
Nanotechnology
13: 559-564.
[34]
Patolsky, F., Weizmann, Y., Willner, I. (2004) Long-range electrical contacting of redox
enzymes by SWCNT connectors.
Angew. Chem. Int. Ed
. 43: 2113-2117.
[35]
Luong, J. H., Hrapovic, S., Wang, D., Bensebaa, F., Simard, B. (2004) Solubilization of multi-
wall carbon nanotubes by 3-aminopropyltriethoxysilane toward the fabrication of electro-
chemical biosensors with promoted electron transfer.
Electroanalysis
16: 132-139.
[36]
Yu, X., Chattopadhyay, D., Galeska, I., Papadimitrakopoulos, F., Rusling, J. F. (2003)
Peroxidase activity of enzymes bound to the ends of single-wall carbon nanotube forest elec-
trodes.
Electrochem. Commun
. 5: 408-411.
[37]
Yamamoto, K., Shi, G., Zhou, T. S., Xu, F., Xu, J. M., Kato, T., Jin, J.Y. (2003) Study of carbon
nanotube-HRP modified electrode and its application for novel on-line biosensors.
Analyst
128: 249-254.
[38]
Xu, J. -Z., Zhu, Z. Z., Wu, Q., Hu, Z., Chen, H. Y. (2003) An amperometric biosensor based on
coimmobilization of horseradish peroxidase and methylene blue on a carbon nanotubes mod-
ified electrode.
Electroanalysis
15: 219-224.
[39]
Zhang, L., Zhao, G-C., Wei, X.-W., Yang, Z.-S. (2005) A nitric biosensor based on myoglobin
adsorbed on multi-walled carbon nanotubes.
Electroanalysis
17: 630-634.
