Biomedical Engineering Reference
In-Depth Information
[116] L. Alfonta, A. Bardea, O. Khersonsky, E. Katz, and I. Willner, Chronopotentiometry and Faradic
impedance spectroscopy as signal transduction methods for the biocatalytic precipitation of an
insoluble product on electrode supports: Route for enzyme sensors, immunosensors and DNA
sensors,
Biosens. Bioelectron.
2001, 16, 675-687.
[117] A. Bardea, F. Patolsky, A. Dagan, and I. Willner, Sensing and amplification of oligonucleotride-
DNA interactions by means of impedance spectroscopy: A route to a Tay-Sachs sensor,
Chem.
Comm
. 1999, 21-22.
[118] F. Patolsky, A. Liochtenstein, and I. Willner, Electrochemical transduction of liposome-amplified
DNA sensing,
Chem. Inter. Ed
. 2000, 39, 940.
[119] F. Patolsky, Y. Weizmann, and I. Willner, redox-active nucleic-acid replica for the amplified
bioelectrocatalystic detection of viral DNA,
J. American Chem. Soc. Communication
2002, 124,
770-772.
[120] M. Y. Vagin, A. A. Karyakin, and T. Hianik, Surfactant bilayers for the direct electrochemical
detection of affinity interactions,
Biochem
. 2002, 56, 91-93.
[121] T. Y. Lee and Y. B. Shin, Direct DNA hybridization based on the oligonucleotide-functionalized
conductive polymer,
Anal. Chem
. 2001, 73, 5629-5632.
[122] H. Cai, Y. Xu, P. G. He, and Y. Z. Fang, Indicator free DNA hybridization detection by imped-
ance measurement based on the DNA-doped conducting polymer film formed on the carbon
nanotube modified electrode,
Electroanalysis
2003, 15, 1864.
[123] C. A. Marquette, I. Lawrence, C. Polychronakos, and M. F. Lawrence, Impedance based DNA
chip for direct
T
m
measurement,
Talanta
2002, 56, 763-768.
[124] C. Berggren, B. Bjarnason, and G. Johansson, Capacitive biosensors,
Electroanalysis
2001, 13, 173.
[125] C. D. Feng, Y. D. Ming, P. J. Hesketh, S. M. Gendel, and J. R. Stetter, Confirmation of immobiliz-
ing IgG on different surfaces with AFM and impedance investigations of a Pt electrode during
the immobilization,
Sensor. Actuat. B-Chem.
1996, 36, 431.
[126] K. Takahashi, M. Tanga, O. Takai, and H. Okamura, DNA preservation using diamond chips,
Diam. Rel. Mater
. 2003, 12, 572-576.
[127] W. Yang, O. Auciello, J. E. Butler, W. Cai, J. A. Carlisle, J. E. Gerbi, D. M. Gruen, T. Knickerbocker,
T. L. Lasseter, J. N. Russell, Jr, L. M. Smith, and R. J. Hamers, DNA-modified nanocrystalline
diamond thin-films as stable, biologically active substrate,
Nat. Mater
. 2002, 1, 253-257.
[128] J. Wang, M. A. Firestone, O. Auciello, and J. A. Carlisle, Surface functionalization of ultranano-
crystalline diamond films by electrochemical reduction of aryldiazonium salts,
Langmuir
2004,
20, 11450-11456.
[129] G. J. Zhang, K. S. Song, Y. Nakamura, T. Ueno, T. Funatsu, I. Ohdomari, and H. Kawarada,
DNA micropatterning polycrystalline diamond via one-step direct amination,
Langmuir
2006,
22, 3728-3734.
[130] W. Yang, J. E. Bulter, J. N. Russell, Jr, and R. J. Hamers, Interfacial electrical properties of DNA-
modified diamond thin films: Intrinsic response and hybridization-induced field effects,
Langmuir
2004, 20, 6778-6787.
[131] Y. Gu, D. Chen, and X. Jiao, Synthesis and electrochemical properties of nanostructured LiCoO
2
fiber as cathode materials for lithium-ion batteries,
J. Phys. Chem
. 2005, 109, 17901-17906.
[132] T. N. Rao, I. Yagi, T. Miwa, D. A. Tryk, and A. Fujishima, Electrochemical oxidation of NADH
at highly boron-doped diamond electrode,
Anal. Chem
. 1999, 71, 2506-2511.
[133] C. E. Nebel, D. Shin, B. Rezek, N. Tokuda, H. Uetsuka, and H. Watanabe, Diamond and biology,
J. R. Soc. Interface
2007, 4, 439-461.
[134] C. E. Nebel, D. Shin, D. Takeuchi, T. Yamamoto, H. Watanabe, and T. Nakamura, Photochemical
attachment of amine linker molecules on hydrogen terminated diamond,
Diam. Rel. Mater
. 2006,
15, 1107-1112.
[135] Alkene/diamond liquid/solid interface characterization using internal photoemission spec-
troscopy,
Langmuir
2006, 22, 5645-5653.
[136] D. Shin, N. Tokuda, B. Rezek, and C. E. Nebel, Periodically arranged benzene-linker molecules
on boron-doped single-crystalline diamond film for DNA sensing,
ElectroChem. Comm
. 2006, 8,
844-850.
