Biomedical Engineering Reference
In-Depth Information
39. C. Rundle, A Beginner's Guide to Ion-Selective Electrode Measurements, http://www.nico2000.net/
Book/Guide1.html. (2005).
40. D. Wipf, F. Ge, T. Spaine, and J. Baur, Microscopic measurement of pH with iridium oxide microelec-
trodes.
Anal. Chem
.
72
, 4921-4927 (2000).
41. I.A. Ges, B.L. Ivanov, D.K. Schaffer, F.A. Lima, A.A. Werdich, and F.J. Baudenbacher, Thin-fi lm IrOx
pH microelectrode for microfl uidic-based microsystems.
Biosens. Bioelectron.
21
, 248-256 (2005).
42. C. Wijayawardhana and W. Heineman, Electrochemcial biosesnors,
in Biomedical Diagnostic Science
and Technology
(W. Law, N. Akmal, and A. Usmani, eds), pp. 1-27. Marcel Dekker, NY (2002).
43. S. Park, H. Boo, Y. Kim, J. Han, H.C. Kim, and T.D. Chung, pH-sensitive solid-state electrode based on
electrodeposited nanoporous platinum.
Anal. Chem
.
77
, 7695-7701 (2005).
44. Q. Li, G. Luo, and Y. Shu, Response of nanosized cobalt oxide electrodes as pH sensors.
Anal. Chim.
Acta
409
, 137-142 (2000).
45. T. Yuen, W. Agnew, L. Bullara, and D. McCreery, Biocompatibility of electrodes and materials in the
central nervous system, in
Neural Prostheses: Fundamental Studies
(W. Agnew and D. McCreery, eds),
pp. 171-321. Prentice Hall, Englewood Cliffs, NJ (1990).
46. M. Schlosser and M. Ziegler, Biocompatibility of active implantable devices, in
Biosensors in the Body:
Continuous In Vivo Monitoring
(D.M. Fraser, ed.), pp. 139-170. John Wiley, NY (1997).
47. B. Ziaie, J.A. von Arx, M.R. Dokmeci, and K. Najafi , A hermetic glass-silicon micropackage with high-
density on-chip feedthroughs for sensors and actuators.
J. Microelectromechan. Sys
.
5
, 66-177 (1996).
48. U. Guth, W. Oelbner, and W. Vonau, Investigation of corrosion phenomena on chemical microsensors.
Electrochim. Acta
47
, 201-210 (2001).
49. Y. Kanda, R. Aoshinma, and A. Takada, Blood compatibility of components and materials in silicon
integrated circuits.
Electron. Lett
.
17
, 558-559 (1981).
50. M.C. Frost, M.M. Batchelor, Y. Lee, H. Zhang, Y. Kang, B. Oha, G.S. Wilson, R. Gifford, S.M. Rudich,
and M.E. Meyerhoff, Preparation and characterization of implantable sensors with nitric oxide release
coatings.
Microchem. J
.
74
, 277-288 (2003).
51. M.F. Nichols, The challenges for hermetic encapsulation of implanted devices - a review.
Biomed. Eng
.
22
, 39-67 (1994).
52. W. Oelbner, J. Zosel, U. Guth, T. Pechstein, W. Babel, J.G. Connery, C. Demuth, M.G. Gansey, and
J.B. Verburg, Encapsulation of ISFET sensor chips.
Sens. Actuators B
.
105
, 104-117 (2005).
53. R.G. Bates,
Determination of pH
, Wiley, New York (1973).
54. A.K. Covington,
Ion-selective Electrode Methodology
, CRC Press, Boca Raton, Florida (1979).
55. W. Gopel, T.A. Jones, M. Kleitz, J. Lundstrom, and T. Seiyama,
Chemical and Biochemical Sensors
,
Chap 2, VCH, Weinham (1991).
56. E.A.H. Hall,
Biosensors
, Open University Press, Buckingham (1990).
57. Y. Abe and M. Maeda, Origin of pH-glass electrode potentials and development of pNa-responsive
glasses.
J. Electrochem. Soc.
147
, 787-791 (2000).
58. G.T. Yu, The diffusivity of mobile hydrogen ion in pH-glass membrane.
Chem. Phys. Lett.
384
, 124-127
(2004).
59. L.Y. Heng, K. Toth, and E.A.H. Hall, Ion-transport and diffusion coeffi cients of non-plasticised
methacrylic-acrylic ion-selective membranes.
Talanta
63
, 73-87 (2004).
60. W. Vonau, J. Gabel, and H. Jahn, Potentiometric all solid-state pH glass sensors.
Electrochim. Acta
50
,
4981-4987 (2005).
61. J. Ylen, Measuring, modeling and controlling the pH value and the dynamic chemical state, Dissertation
for the degree of Doctor of Science in Technology, Helsinki University of Technology (2001).
62. W.Y. Liao, Y.G. Lee, C.Y. Huang, H.Y. Lin, Y.C. Weng, and T.C. Chou, Telemetric electrochemical sen-
sor.
Biosens. Bioelectron
.
20
, 482-490 (2004).
63. R.Q. Yu, Z.R. Zhang, and G.L. Shen, Potentiometric sensors: aspects of the recent development.
Sens.
Actuators B
.
65
, 150-153 (2000).
64. K.L. Cheng and D.M. Zhu, On calibration of pH meters.
Sensors
5
, 209-219 (2005).
65. M.J. Schoning, D. Brinkmann, D. Rolka, C. Demuth, and A. Poghossian, CIP (cleaning-in-place) suitable
“non-glass” pH sensor based on a Ta
2
O
5
-gate EIS structure.
Sens. Actuators B
.
111
-
112
, 423-429 (2005).
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