Biomedical Engineering Reference
In-Depth Information
90. R. Koncki and M. Mascini, Screen-printed ruthenium dioxide electrodes for pH measurements.
Anal.
Chim. Acta
351
, 143-149 (1997).
91. W. Vonau, U. Enseleit, F. Gerlach, and S. Herrmann, Conceptions, materials, processing of miniatur-
ized electrochemical sensors with planar membranes.
Electrochim. Acta
49
, 3745-3750 (2004).
92. L.A. Pocrifka, C. Goncalves, P. Grossi, P.C. Colpa, and E.C. Pereira, Development of RuO
2
ß
TiO
2
(70
ß
30) mol% for pH measurements.
Sens. Actuators B
.
113
, 1012-1016 (2006).
93. A. Gac, J.K. Atkinson, Z. Zhang, C.J. Sexton, S.M. Lewis, C.P. Please, and R. Sion, Investigation of
the fabrication parameters of thick fi lm titanium oxide-PVC pH electrodes using experimental designs.
Microelectronics Int
.
21
, 44-53 (2004).
94. C.C. Liu, B.C. Bocchicchio, P.A. Overmeyer, and M.R Neuman, A palladium oxide miniature pH elec-
trode.
Science
207
, 188-189 (1980).
95. R.D. Jones, M.R. Neuman, G. Sanders, and F.T. Cross, Miniature antimony pH electrodes for measur-
ing gastro esophageal refl ux.
Ann. Thoracic Surg
.
33
, 491-495 (1982).
96. K. Yamamoto, G.Y. Shi, T.S. Zhou, F. Xu, M. Zhu, M. Liu, T. Kato, J.Y. Jin, and L.T. Jin, Solid-
state pH ultramicrosensor based on a tungstic oxide fi lm fabricated on a tungsten nanoelectrode and its
application to the study of endothelial cells.
Anal. Chim. Acta
480
, 109-117 (2003).
97. A. Eftekhari, pH sensor based on deposited fi lm of lead oxide on aluminum substrate electrode.
Sens.
Actuators B
.
88
, 234-238 (2003).
98. C.W. Pan, J.C. Chou, T.P. Sun and S.K. Hsiung, Development of the real-time pH sensing system for
array sensors.
Sens. Actuators B
.
108
, 870-876 (2005).
99. C.N. Tsai, J.C. Chou, T.P. Sun, and S.K. Huiung, Study on the sensing characteristics and hysteresis
effect of the tin oxide pH electrode.
Sens. Actuators B.
108
, 877-882 (2005).
100. S. Yao, M. Wang, and M. Madou, A pH electrode based on melt-oxidized iridium oxide.
J. Electrochem. Soc
.
148
, H29-H36 (2001).
101. S.A. Marzouk, Improved electrodeposited iridium oxide pH sensor fabricated on etched titanium sub-
strates.
Anal. Chem
.
75
, 1258-1266 (2003).
102. A. Bezbaruah and T. Zhang, Fabrication of anodically electrodeposited iridium oxide fi lm pH micro-
electrodes for microenvironmental studies.
Anal. Chem
.
74
, 5726-5733 (2002).
103. S. Marzouk, R. Buck, L. Dunlap, T. Johnson, and W. Cascio, Measurement of extracellular pH, K(
),
and lactate in ischemic heart.
Anal. Biochem
.
308
, 52-60 (2002).
104. P. VanHoudt, Z. Lewandowski, and B. Little, Iridium oxide pH microelectrode.
Biotechnol. Bioeng.
40
,
601-608 (1992).
105. G. Papeschi, S. Merigliano, G. Zaninotto, M. Baessato, E. Ancona, and M. Larini, The iridium/irid-
ium oxide electrode for in vivo measurement of oesophageal and gastric pH.
J. Med. Eng. Technol
.
8
,
221-223 (1984).
106. S.A. Grant, K. Bettencourt, P. Krulevitch, J. Hamilton, and R. Glass, Development of fi ber optic and
electrochemical pH sensors to monitor brain tissue.
Crit. Rev. Biomed. Eng
.
28
, 159-163 (2000).
107. D.J.G. Ives and G.J. Janz,
Reference Electrodes
, pp. 1-230. Academic Press, New York (1961).
108. H. Suzuki, A. Hiratsuka, S. Sasaki, and I. Karu, Problems associated with the thin-fi lm Ag:AgCl
reference electrode and a novel structure with improved durability.
Sens. Actuators B
.
46
, 104-113
(1998).
109. T.G. Yuen, W.F. Agnew, and L.A. Bullara, Tissue response to potential neuroprosthetic materials
implanted subdurally.
Biomaterials
8, 138-141 (1987).
110. F. Moussy and D.J. Harrison, Prevention of the rapid degradation of subcutaneously implanted
Ag/AgCl reference electrodes using polymer coatings.
Anal. Chem
.
66
, 674-679 (1994).
111. S. Kojima, M. Loughran, and H. Suzuki, Microanalysis system for pO
2
, pCO
2
, and pH constructed
with stacked modules.
IEEE Sens.
J.
5
, 1120-1126 (2005).
112. H.J. Yoon, J.H. Shin, S.D. Lee, H. Nam, G.S. Cha, T.D. Strong, and R.B. Brown, Solid-state ion sen-
sors with a liquid junction-free polymer membrane-based reference electrode for blood analysis.
Sens.
Actuators
B.
64
, 8-14 (2000).
113. J. Ha, S.M. Martin, Y. Jeon, I.J. Yoon, R.B. Brown, H. Nam, and G.S. Cha, A polymeric junction
membrane for solid-state reference electrodes.
Anal. Chim. Acta
549
, 59-66 (2005).
Search WWH ::
Custom Search