Biomedical Engineering Reference
In-Depth Information
72. C. Hinnen, R. Parsons, and K. Niki, Electrochemical and spectrorefl ectance studies of the adsorbed
horse heart cytochrome c and cytochrome c3 from
D. vulgaris
, miyazaki strain, at gold electrode.
J.
Electroanal. Chem.
147
, 329-337 (1983).
73. M.A. Hayat, in
Colloidal Gold: Principles, Methods, and Applications
, vol. 1. Academic Press, San
Diego (1989).
74. M. Bendayan, in
Colloidal Gold: Principles, Methods, and Applications
(M.A. Hayat, ed.), vol. 2.
Academic Press, San Diego (1989).
75. A.L. Crumbliss, J.Z. Stonehuerner, R.W. Henkens, J. Zhao, and J.P. O'Daly, A carrageenan hydrogel
stabilized colloidal gold multi-enzyme biosensor electrode utilizing immobilized horseradish peroxidase
and cholesterol oxidase/cholesterol esterase to detect cholesterol in serum and whole blood.
Biosens.
Bioelectron.
8
, 331-337 (1993).
76. J. Zhao, R.W. Henkens, J. Stonehuerner, J.P. O'Daly, and A.L. Crumbliss, Direct electron-transfer at
horseradish-peroxidase colloidal gold modifi ed electrodes.
J. Electroanal. Chem.
327
, 109-119 (1992).
77. A.N. Shipway, E. Katz, and I. Willner, Nanoparticle arrays on surfaces for electronic, optical and senso-
ric applications.
Chemphyschem
1
, 18-52 (2000).
78. A. Doron, E. Katz, and I. Willner, Organization of Au colloids as monolayer fi lms onto ITO glass sur-
faces: application of the metal colloid fi lms as base interfaces to construct redox-active monolayers.
Langmuir
11
, 1313-1317 (1995).
79. L.A. Lyon, D.J. Pena, and M.J. Natan, Surface plasmon resonance of Au colloid-modifi ed Au fi lms: par-
ticle size dependence.
J. Phys. Chem. B
103
, 5826-5831 (1999).
80. K.R. Brown, L.A. Lyon, A.P. Fox, B.D. Reiss, and M.J. Natan, Hydroxylamine seeding of colloidal Au
nanoparticles 3. Controlled formation of conductive Au fi lms.
Chem. Mater.
12
, 314-323 (2000).
81. Y.D. Jin, X.F. Kang, Y.H. Song, B.L. Zhang, G.J. Cheng, and S.J. Dong, Controlled nucleation and
growth of surface-confi ned gold nanoparticles on a (3-aminopropyl)trimethoxysilane-modifi ed glass
slide: a strategy for SPR substrates.
Anal. Chem.
73
, 2843-2849 (2001).
82. K.R. Brown, A.P. Fox, and M.J. Natan, Morphology-dependent electrochemistry of cytochrome c at Au
colloid-modifi ed SnO
2
electrodes.
J. Am. Chem. Soc.
118
, 1154-1157 (1996).
83. F. Patolsky, T. Gabriel, and I. Willner, Controlled electrocatalysis by microperoxidase-11 and Au-nano-
particle superstructures on conductive supports.
J. Electroanal. Chem.
479
, 69-73 (1999).
84. C.J. Brinker and G.W. Scherer, in
Sol-Gel Science: The Physics and Chemistry of Sol-Gel Processing
.
Academic Press, New York (1990).
85. L.L. Hench and J. West, The sol-gel process.
Chem. Rev.
90
, 33-72 (1990).
86. B.Q. Wang, B. Li, Z.X. Wang, G.B. Xu, Q. Wang, and S.J. Dong, Sol-gel thin-fi lm immobilized soybean
peroxidase biosensor for the amperometric determination of hydrogen peroxide in acid medium.
Anal.
Chem.
71
, 1935-1939 (1999).
87. O.P. Matyshevska, A.Y. Karlash, Y.V. Shtogun, A. Benilov, Y. Kirgizov, K.O. Gorchinskyy, E.V. Buzaneva,
Y.I. Prylutskyy, and P. Scharff, Self-organizing DNA/carbon nanotube molecular fi lms.
Mat. Sci. Eng.
C-Bio. S.
15
, 249-252 (2001).
88. E. Buzaneva, A. Karlash, K. Yakovkin, Y. Shtogun, S. Putselyk, D. Zherebetskiy, A. Gorchinskiy,
G. Popova, S. Prilutska, O. Matyshevska, Y. Prilutskyy, P. Lytvyn, P. Scharff, and P. Eklund, DNA nanote-
chnology of carbon nanotube cells: physico-chemical models of self-organization and properties.
Mat.
Sci. Eng. C-Bio. S.
19
, 41-45 (2002).
89. R. Saito, G. Dresselhaus, and M.S. Dresselhaus, Tunneling conductance of connected carbon nanotubes.
Phys. Rev. B
53
, 2044-2050 (1996).
90. D. Porath, A. Bezryadin, S. de Vries, and C. Dekker, Direct measurements of electrical transport through
DNA molecules.
Nature
403
, 635-637 (2000).
91. S.J. Trans, M.H. Devoret, H. Dai, A. Thess, R.E. Smalley, L.J. Geerligs, and C. Dekker, Individual sin-
gle-wall carbon nanotubes as quantum wires.
Nature
386
, 474-476 (1997).
92. G. Wang, J.J. Xu, and H.Y. Chen, Interfacing cytochrome c to electrodes with a DNA-carbon nanotube
composite fi lm.
Electrochem. Commun.
4
, 506-509 (2002).
93. E.F. Bowden, F.M. Hawkridge, and P.M. Blount, in
Bioelectrochemistry
(S. Srinivasan, Y.A. Chizmadzhev,
J. Bockris, B.E. Conway, and E. Yeager, eds), p. 297. Plenum Press, New York (1985).
Search WWH ::
Custom Search