"Baseline (zero-value) drift and sensitivity degradation are two common problems related with biosensors. In order to overcome these problems, there is a great need for integrating an on-demand, in situ self-diagnosis and self-calibration unit along with the sensor. Utilizing the microfluidic technology, it is possible to explore the feasibility of implementing this function without any externally coupled bulky apparatus. A microsystem including a microfluidic channel and calibration electrodes are prepared by microfabrication techniques"--Abstract, page iv.
Electrical and Computer Engineering
M.S. in Electrical Engineering
National Science Foundation (U.S.)
University of Missouri--Rolla
Journal article titles appearing in thesis/dissertation
- Intelligent microfluidic creatinine biosensor
- Microfluidic biosensors for intelligent metabolite monitoring.
viii, 45 pages
© 2007 Nitin Radhakrishnan, All rights reserved.
Thesis - Open Access
Library of Congress Subject Headings
Print OCLC #
Electronic OCLC #
Link to Catalog Recordhttp://laurel.lso.missouri.edu/record=b6400708~S5
Radhakrishnan, Nitin, "Microfluidic biosensors for intelligent metabolite monitoring" (2007). Masters Theses. 4588.