Development of a Oxygen Sensor for Marine ... - DTU Nanotech
Development of a Oxygen Sensor for Marine ... - DTU Nanotech
Development of a Oxygen Sensor for Marine ... - DTU Nanotech
You also want an ePaper? Increase the reach of your titles
YUMPU automatically turns print PDFs into web optimized ePapers that Google loves.
68 BIBLIOGRAPHY<br />
[39] Mairi E. Sandison, Natalie Anicet, Andrew Glidle, and Jonathan M.<br />
Cooper. Optimization <strong>of</strong> the geometry and porosity <strong>of</strong> microelectrode<br />
arrays <strong>for</strong> sensor design. Analytical Chemistry, 74:5717–5725, November<br />
2002.<br />
[40] Hiroaki Suzuki. Advances in the micr<strong>of</strong>abrication <strong>of</strong> electrochemical<br />
sensors and systems. Electroanalysis, 12:703–715, 2000.<br />
[41] B. Ross, K. Cammann, W. Mokwa, and M. Rospert. Ultramicroelectrode<br />
arrays as tranducers <strong>for</strong> new amperometric oxygen sensors. <strong>Sensor</strong>s<br />
and Actuators B, 7:758–762, 1992.<br />
[42] Glen W. McLaughlin, Katie Braden, Benjamin Franc, and Gregory T.A.<br />
Kovacs. Micr<strong>of</strong>abricated solid-state dissolved oxygen sensor. <strong>Sensor</strong>s and<br />
Actuators B, 83:138–148, 2002.<br />
[43] Chen Yu-Quan and Li Guang. A mathematical model with finiteelement<br />
analysis <strong>of</strong> recessed dissolved-oxygen cathode array. <strong>Sensor</strong>s<br />
and Actuators B, 10:223–228, 1993.<br />
[44] http://www.sablesys.com/oxrechlo.htm.<br />
[45] Sotiris Sotiropoulos and Kirsi Wallgren. Solid-state microelectrode oxygen<br />
sensors. Analytica Chimica Acta, 388:51–62, 1999.<br />
[46] http://www.microwaves101.com/encyclopedia/temperature.cfm.