Biomedical Engineering Reference
In-Depth Information
Nivens DA, Y Zhang, and SM Angel, A fiber-optic pH sensor using base-catalyzed organo-silica sol-gel,
Analytica Chimica Acta
,
376
, 235-245 (1998).
Pardo-Yissar V, E Katz, J wasserman, and I Willner,
Journal of the American Chemical Society
,
125
, 622 (2003).
Park S, TD Chung, and HC Kim, Nonenzymatic glucose detection using mesoporous platinum,
Analytical
Chemistry
,
75
, 3046-3049 (2003).
Pemberton RM, R Pittson, N Biddle, and JP Hart, Fabrication of microband glucose biosensors using a
screen-printing water-based carbon ink and their application in serum analysis,
Selected Papers from the
Tenth World Congress on Biosensors
, Shanghai, China, May 14-16, 2008,
Biosensors and Bioelectronics
,
1 January, 1246-1252, 2009.
Pesika NS, Z Hu, KJ Stebe, and PC Sehrson,
Journal of Physical Chemistry B
,
106
, 6985 (2002).
Peterson JI, SR Goldstein, RV Fitzgerald, and DK Buckhold, Fiber optic pH probe for physiological use,
Analytical Chemistry
,
52
, 864-869 (1980).
Pletcher D, In
Microelectrodes Theory and Applications
, MI Montenegro, MA Queiros, JC Daschbach, (Eds.),
Kluwer, Netherlands, 1991, pp. 3-16.
Raitman OA, E Katz, AF Buckman, and I Willner, Integration of polyaniline/poly(acrylic acid) films and redox
enzyme electrode supports of the bioelectrocatalyzed oxidation of glucose or lactate in the integrated
bioelectrocatalytic systems,
Journal of the American Chemical Society
,
124
, 6487 (2002).
Ramanathan K, S Annapoorni, and BD Malhotra, Application of poly(aniline) as a glucose biosensor,
Sensors &
Actuators B
,
21
, 165-169 (1994).
Ren X, D Chen, X Meng, F Tang, X Hou, D Han, and L Zhang, Zinc oxide nanoparticles/glucose oxidase
photoelectrochemical system for the fabrication of biosensor,
Journal of Colloid and Interface Science
,
334
,
183-187 (2009).
Ren XI, XW Meng, D Chen, FQ Tang, and J Jiao,
Biosensors & Bioelectronics
,
21
, 433 (2005).
Rizukawa M and K Sanui,
Progress in Polymer Science
,
25
(10), 1463 (2000).
Rong LQ, C Yang, QY Qian, and XH Xia,
Talanta
,
72
, 819-824 (2007).
Saari LA and WR Seitz, pH sensor based on immobilized fluoreseinamine,
Analytical Chemistry
,
54
, 821-823 (1982).
Sadik OA and JMV Emon,
Biosensors & Bioelectronics
,
11
, i-xi (1996).
Safavi A, G Absalan, and G Bamdad,
Analytica Chimica Acta
,
610
, 243-248 (2008).
Safavi A, N Maleki, and E Farjani, Fabrication of a glucose biosensor based on a novel nanocomposite electrode,
Biosensors and Bioelectronics
,
24
, 1655-1660 (2009).
Salimi A, B Kavosi, R Hallaj, and A Barbei, Fabrication of a highly sensitive glucose biosensor based on
immobilization of osmium complex and glucose oxidase onto carbon nanotubes modified electrode,
Electroanalysis
, accepted December 24, 2008, DOI 10.1002/elan.200804486, downloaded September 1, 2009.
Salimi A, E Sharifi, A Noorbaksh, and S Soltanian,
Biosensors & Bioelectronics
,
22
, 3146 (2007).
Schena M, RA Heller, TP Theriault, K Konrad, E Lachenmeier, and RW Davis,
Trends in Biotechnology
,
16
(7),
301-306 (1998).
Schena M,
Microarray Analysis
, Hoboken, New Jersey, 648, 2003.
Schena M, RA Heller, TP Theriault, K Konrad, E Lachenmeier, and RW Davis,
Trends in Biotechnology
,
16
(7),
881-889 (2003).
Schuler T, T Asmus, W Fritzsche, and RM Moller, Screen printing as a cost-effective fabrication method for
DNA-chips with electrical readout for detection of viral DNA,
Biosensors and Bioelectronics
, 15 March,
2077-2084 (2009).
Sellergren B,
Agnew Chemistry International Edition
,
39
, 1031-1037 (2000).
Sergeyeva TA, NV Lavrik, and AE Rachkov, Sensors & Actuators
B
,
34
, 283-288 (1996).
Shaolin M and K Jinqing, Bioelectrochemical activation and inhibition of polyaniline gkucose oxidase electrode
by cations,
Electrochimica Acta
,
40
, 241-246 (1995).
Shaolin M and L Jincui,
Chemistry Journal on Internet
, 1 (1999).
Shea KJ,
Trends in Polymer Science
,
2
, 166-173 (1994).
Sherijara BS, W Kutner, and F D'Souza,
Electroanalysis
,
15
(9), 753 (2003).
Shi H, WB Tsai, MD Garrison, S Ferrari, and BD Ratner,
Nature
,
398
, 593-597 (1999).
