Biomedical Engineering Reference
In-Depth Information
22. D.L. Carroll, X. Blase, J.C. Charlier, P. Redlich, P.M. Ajayan, S. Roth, and M. Ruhle, Effects of
nanodomain formation on the electronic structure of doped carbon nanotubes. Phys. Rev. Lett. 81 , 2332-
2335 (1998).
23. E.W. Wong, P.E. Sheehan, and C.M. Lieber, Nanobeam mechanics: elasticity, strength, and toughness of
nanorods and nanotubes. Science 277 , 1971-1975 (1997).
24. S.S. Wong, E. Joselevich, A.T. Woolley, C.L. Cheung, and C.M. Lieber, Covalently functionalized
nanotubes as nanometre-sized probes in chemistry and biology. Nature 394 , 52-55 (1998).
25. Y. Liu, X. Song, T. Zhao, J. Zhu, H. Michael, and P. Fritz, Amorphous carbon nanotubes produced by a
temperature controlled DC arc discharge. Carbon 42 , 1852-1855 (2004).
26. T. Guo, P. Nikolaev, A. Thess, D.T. Colbert, and R.E. Smalley, Catalytic growth of single-walled
nanotubes by laser vaporization. Chem. Phys. Lett. 243 , 49-54 (1995).
27. P. Coquay, E. Flahaut, E. de Grave, A. Peigney, R.E. Vandenberghe, and C. Laurent, Fe/Co alloys for the
catalytic chemical vapor deposition synthesis of single- and double-walled carbon nanotubes (CNTs). 2.
The CNT-Fe/Co-MgAl 2 O 4 system. J. Phys. Chem. B 109 , 17 825-17 830 (2005).
28. A. Rinzler, J. Liu, H. Dai, P. Nikolaev, C. Huffman, F. Rodriguez-Macias, P. Boul, A. Lu,
D. Heymann, D.T. Colbert, R.S. Lee, J. Fischer, A. Rao, P.C. Eklund, and R.E. Smalley, Large-scale
purifi cation of single-wall carbon nanotubes: process, product, and characterization. Appl. Phys. A 67 ,
29-37 (1998).
29. S. Bandow, A.M. Rao, K.A. Williams, A. Thess, R.E. Smalley, and P.C. Eklund, Purifi cation of single-
wall carbon nanotubes by microfi ltration. J. Phys. Chem. B 101 , 8839-8842 (1997).
30. K.B. Shelimov, R.O. Esenaliev, A.G. Rinzler, C.B. Huffman, and R.E. Smalley, Purifi cation of single-
wall carbon nanotubes by ultrasonically assisted fi ltration. Chem. Phys. Lett. 282 , 429-434 (1998).
31. Q. Xie, F. Arias, and L. Echegoyen, Electrochemically-reversible, single-electron oxidation of C60 and
C70. J. Am. Chem. Soc . 115 , 9818-9819 (1993).
32. P.J. Britto, K.S.V. Santhanam, A. Rubio, J.A. Alonso, and P.M. Ajayan, Improved charge transfer at car-
bon nanotube electrodes. Adv. Mater. 11 , 154-157 (1999).
33. J.K. Campbell, L. Sun, and R.M. Crooks, Electrochemistry using single carbon nanotubes. J. Am. Chem.
Soc. 121 , 3779-3780 (1999).
34. G. Che, B.B. Lakshmi, E.R. Fisher, and C.R. Martin, Carbon nanotubule membranes for electrochemi-
cal energy storage and production. Nature 393 , 346-349 (1998).
35. H. Luo, Z. Shi, N. Li, Z. Gu, and Q. Zhuang, Investigation of the electrochemical and electrocatalytic
behavior of single-wall carbon nanotube fi lm on a glassy carbon electrode. Anal. Chem. 73 , 915-920
(2001).
36. J.J. Davis, K.S. Coleman, B.R. Azamian, C.B. Bagshaw, and M.L.H. Green, Chemical and biochemical
sensing with modifi ed single walled carbon nanotubes. Chem. Eur. J. 9 , 3732-3739 (2003).
37. M. Valcarcel, B.M. Simonet, S. Cardenas, and B. Suarez, Present and future applications of carbon nan-
otubes to analytical science. Anal. Bioanal. Chem . 382 , 1783-1790 (2005).
38. C.K.W. Adu, G.U. Sumanasekera, B.K. Pradhan, H.E. Romero, and P.C. Eklund, Carbon nanotubes: a
thermoelectric nano-nose. Chem. Phys. Lett . 337 , 31-35 (2001).
39. J. Wang, M. Li, Z. Shi, N. Li, and Z. Gu, Electrocatalytic oxidation of 3,4-dihydroxyphenylacetic
acid at a glassy carbon electrode modifi ed with single-wall carbon nanotubes. Electrochim. Acta 47 ,
651-657 (2001).
40. X. Zhang, J. Zhang, and Z. Liu, Conducting polymer/carbon nanotube composite fi lms made by in situ
electropolymerization using an ionic surfactant as the supporting electrolyte. Carbon 43 , 2186-2191
(2005).
41. H. Zengin, W. Zhou, J. Jin, R. Czerw, D.W.S. Jr, L. Echegoyen, D.L. Carroll, S.H. Foulger, and
J. Ballato, Carbon nanotube doped polyaniline. Adv. Mater. 14 , 1480-1483 (2002).
42. A. Salimi, R.G. Compton, and R. Hallaj, Glucose biosensor prepared by glucose oxidase encapsulated
sol-gel and carbon-nanotube-modifi ed basal plane pyrolytic graphite electrode. Anal. Biochem. 333 , 49-
56 (2004).
43. W. Li, S. Xie, L. Qian, B. Chang, B. Zou, W. Zhou, R. Zhao, and G. Wang, Large-scale synthesis of
aligned carbon nanotubes. Science 274 , 1701-1703 (1996).
Previous Page
Next Page
Electrochemical Sensors, Biosensors and Their Biomedical Applications
Search WWH ::




Custom Search
Home