Biomedical Engineering Reference
In-Depth Information
140.
Davis, J. J., Creen, M. L. H., Hill, H. A. O., Leung, Y. C., Sadler, P. J., Sloan, J., Xavier, A. V.,
Tsang, S. C. (1998). The Immobilization of Proteins in Carbon Nanotubes.
Inorg. Chim. Acta,
272, 261-266.
141.
Wang, J., Musameh, M. (2003). Electrodes: A Needle Microsensor for Monitoring Glucose.
Analyst,
128, 1382-1385.
142.
Heller, I., Kong, J., Heering, H. A., Williams, K. A., Lemay, S. G., Dekker, C. (2005). Individual
Single-Walled Carbon Nanotubes as Nanoelectrodes for Electrochemistry.
Nano Lett.,
5(1),
137-142.
143.
Campbell, J. K., Sun, L., Crooks, R. M. (1999). Electrochemistry Using Single Carbon
Nanotubes.
J. Am. Chem. Soc.,
121, 3779-3880.
144.
Wang, J., Musameh, M., Lin, Y. (2003). Solubilization of Carbon Nanotubes by Nafion Toward
the Preparation of Amperometric Biosensors.
J. Am. Chem. Soc
., 125(9), 2408-2409.
145.
Gong, K. P., Dong, Y., Xiong, S. X., Chen, Y., Mao, L. Q. (2004). Novel Electrochemical Method
for Sensitive Determination of Homocysteine With Carbon Nanotube- Based Electrodes.
Biosens. Bioelectron.,
20(2), 253-259.
146.
Dai, Y. Q., Shiu, K. K. (2004). Glucose Biosensor Based on Multi-Walled Carbon Nanotubes
Modified Glassy Carbon Electrode.
Electroanalysis,
16(20), 1697-1703.
147.
Wang, J., Musameh, M. (2003). Carbon Nanotube/Teflon Composite Electrochemical Sensors
and Biosensors.
Anal. Chem
., 75(9), 2075-2079.
148.
Gao, M., Dai, L., Wallace, G. C. (2003). Polypyrrole CNTs.
Synth. Met.,
137, 1393-1394.
149.
Jiang, L., Liu, C., Jiang, L., Peng, Z., Lu, G. (2004). A Chitosan-Multiwall Carbon Nanotube
Modified Electrode for Simultaneous Detection of Dopamine and Ascorbic Acid.
Anal. Sci.,
20,
1055-1059.
150.
Joshi, P. P., Merchant, S. A., Wang, Y., Schmidtke, D. W. (2005). Amperometric Biosensors
Based on Redox Polymer-Carbon Nanotube-Enzyme Composites.
Anal. Chem.,
77(10),
3183-3188.
151.
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(1-2), 145-149.
152.
Hrapovic, S., Liu, Y., Male, K. B., Luong, J. H. T. (2004). Electrochemical Biosensing Platforms
Using Platinum Nanoparticles and Carbon Nanotubes.
Anal. Chem.,
76(4), 1083-1088.
153.
Deo, R. P., Lawrence, N. S., Wang, J. (2004). Electrochemical Detection of Amino Acids at
Carbon Nanotube and Nickel-Carbon Nanotube Modified Electrodes.
Analyst,
1219,
1076-1081.
154.
Male, K. B., Hrapovic, S., Liu, Y., Wang, D., Luong, J. H. T. (2004). Electrochemical Detection
of Carbohydrates Using Copper Nanoparticles and Carbon Nanotubes.
Anal. Chim. Acta,
516,
35-41.
155.
Zhao, Q., Nardelli, M. B., Lu, W., Bernholc, J. (2005). Carbon Nanotube-Metal Cluster
Composites: A New Road to Chemical Sensors?
Nano Lett.,
5(5), 847-851.
156.
Lim, S.-H., Wei, J., Lin, J. (2004). Electrochemical Genosensing Properties of Gold
Nanoparticle-Carbon Nanotube Hybrid.
Chem. Phys. Lett.,
400, 578-582.
157.
Li, J., Koehne, J. E., Cassell, A. M., Chen, H., Ng, H. T., Ye, Q., Fan, W., Han, J., Meyyappan,
M. (2005). Inlaid Multi-Walled Carbon Nanotube Nanoelectrode Arrays for Electroanalysis.
Electroanalysis
, 1, 15-27.
158.
Li, J., Ng, H. T., Cassell, A., Fan, W., Chen, H., Ye, Q., Koehne, J., Han, J., Meyyappan, M.
(2003). Carbon Nanotube Nanoelectrode Array for Ultrasensitive DNA Detection.
Nano Lett.,
3(5), 597-602.
159.
Arrigan, D. W. M. (2004). Nanoelectrods, Nanoelectrode Arrays and Their Application.
Analyst,
129, 1157-1165.
160.
Sotiropoulou, S., Chaniotakis, N. A. (2003). Carbon Nanotube Array-Based Biosensor.
Anal.
Bioanal. Chem.,
375, 103-105.
161.
Dai, L., He, P., Li, S. (2003). Functionalized Surfaces Based on Polymers and Carbon
Nanotubes for Some Biomedical and Optoelectronic Applications.
Nanotechnology,
14,
1081-1097.
162.
de Heer, W. A., Châtelain, A., Ugarte, D. (1995). A Carbon Nanotube Field-Emission Electron
Source.
Science,
270, 1179-1180.
