Biomedical Engineering Reference
In-Depth Information
81. J. Yu, S. Liu, and H.X. Ju, Mediator-free phenol sensor based on titania sol-gel encapsulation matrix for
immobilization of tyrosinase by a vapor deposition method.
Biosens. Bioelectron.
19
, 509-514 (2003).
82. A.K. Singh, A.W. Flounders, J.V. Volponi, C.S. Ashley, K. Wally, and J.S. Schoeniger, Development of
sensors for direct detection of organophosphates. Part I: immobilization, characterization and stabiliza-
tion of acetylcholinesterase and organophosphate hydrolase on silica supports.
Biosens. Bioelectron.
14
, 703-713 (1999).
83. M.A. Doody, G.A. Baker, S. Pandey, and V. Bright, Affi nity and mobility of polyclonal anti-dansyl
antibodies sequestered within sol-gel-derived biogels.
Chem. Mater.
12
, 1142-1147 (2000).
84. S. Wu, L.M. Ellerby, J.S. Cohan, B. Dunn, M.A. El-Sayed, J.S. Valentine, and J.I. Zink, Bacteriorhodopsin
encapsulated in transparent sol-gel glass: a new biomaterial.
Chem. Mater.
5
, 115-120 (1993).
85. M.M. Collinson and A.R. Howells, Sol-gel and electrochemistry: research at the intersection.
Anal.
Chem.
72
, 702A-709A (2000).
86. E. Mei, A.M. Bardo, M.M. Collinson, and D.A. Higgins, Single-molecule studies of sol-gel-derived sili-
cate fi lms. Microenvironments and fi lm-drying conditions
J. Phys. Chem., B
104
, 9973-9980 (2000).
87. S. Bharathi and O. Lev, Sol-gel-derived nanocrystalline gold-silicate composite biosensor.
Anal.
Commun.
35
, 29-31 (1998).
88. Q.C. Shi, T.Z. Peng, Y.N. Zhu, and C.F. Yang, An electrochemical biosensor with cholesterol oxidase/
sol-gel fi lm on a nanoplatinum/carbon nanotube electrode.
Electroanalysis
17
, 857-861 (2005).
89. Y. Degani and A. Heller, Direct electrical communication between chemically modifi ed enzymes and
metal electrodes. I. Electron transfer from glucose oxidase to metal electrodes via electron relays,
bound covalently to the enzyme.
J. Phys. Chem.
91
, 1285-1289 (1987).
90. L. Rabinovich and O. Lev, Sol-gel derived composite ceramic carbon electrodes.
Electroanalysis
,
13
,
265-275 (2001).
91. J. Gun and O. Lev, Voltammetric studies of composite ceramic carbon working electrodes.
Anal. Chim.
Acta
,
294
, 261-270 (1994).
92. J. Wang, D.S. Park, and P.V.A. Pamidi, Tailoring the macroporosity and performance of sol-gel derived
carbon composite glucose sensors.
J. Electroanal. Chem.
434
, 185-189 (1997).
93. S. Sampath and O. Lev, Inert metal-modifi ed, composite ceramic-carbon, amperometric biosensors:
renewable, controlled reactive layer.
Anal. Chem
.
68
, 2015-2021 (1996).
94. S. Sampath and O. Lev, Renewable, reagentless glucose sensor based on a redox-modifi ed enzyme and
carbon-silica composite.
Electroanalysis
8
, 1112-1116 (1996).
95. J. Gun and O. Lev, Sol-gel derived, ferrocenyl-modifi ed silicate-graphite composite electrode: wiring
of glucose oxidase.
Anal. Chim. Acta
336
, 95-106 (1996).
96. J. Li, L.S. Chia, N.K. Goh, and S.N. Tan, Renewable silica sol-gel derived carbon composite based
glucose biosensor.
J. Electroanal. Chem.
460
, 234-241 (1999).
97. M. Tsionsky, G. Gun, V. Giezer, and O. Lev, Sol-gel-derived ceramic-carbon composite electrodes:
introduction and scope of applications.
Anal. Chem
.
66
, 1747-1753 (1994).
98. V.S. Tripathi, V.B. Kandimalla, and H.X. Ju, Preparation of ormosil and its applications in the immobiliz-
ing biomolecules.
Sens. Actuat. B
114
, 1071-1082 (2006).
99. X. Yang, L. Huaa, H. Gonga, and S.N. Tan, Covalent immobilization of an enzyme (glucose oxidase)
onto a carbon sol-gel silicate composite surface as a biosensing platform.
Anal. Chim. Acta
478
, 67-75
(2003).
100. S. Braun, S. Shtelzer, S. Rappoport, D. Avnir, and M. Ottolenghi, Biocatalysis by sol-gel entrapped
enzymes.
J. Non-Cryst. Solids
147/148
, 739-743 (1992).
101. Y. Tatsu, K. Yamashita, M. Yamaguchi, S. Yamamura, H. Yamammoto, and S. Yoshikawa, Entrapment
of glucose oxidase in silica gel by the sol-gel method and its application to glucose sensor.
Chem. Lett.
36
, 1615-1618 (1992).
102. M.D. Gulcev, G.LG. Goring, M. Rakic, and J.D. Brennan, Reagentless pH-based biosensing using a
fl uorescently-labelled dextran co-entrapped with a hydrolytic enzyme in sol-gel derived nanocompos-
ite fi lms.
Anal. Chim. Acta
457
, 47-59 (2002).
103. R.A. Doong and H.C. Tsai, Immobilization and characterization of sol-gel-encapsulated acetylcho-
linesterase fi ber-optic biosensor.
Anal. Chim. Acta
434
, 239-246 (2001).
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