Materials and Strategies in Optical Chemical Sensing
The detection of chemical species that play an important role in biological systems, industrial processes or that are environmental pollutants demands the development of highly sensitive and selective chemical sensors capable of operating in various media, particularly in water. Reliable sensing in water is a difficult problem, thus analytical tests and sensor devices for detection in aqueous media remain rare. The present work describes the rational design and formulation of materials for the optical chemical sensing of anions and metal ions in aqueous solution. These materials consist of optical chemosensors embedded in hydrophilic poly(ether)urethanes, which mimic the synergy between proteins and cofactors in enzymes. The resulting materials are arrayed and used in tandem for the detection of single analyte and multianalyte samples, such as toothpaste, human blood serum and enhanced soft drinks. This work also aims to demonstrate that the discriminatory power of sensor arrays might be improved by the use of selective, yet cross-reactive sensing elements. The balance between the selectivity and the cross-reactivity allows for a significant reduction in the number of elements in the sensor array, thereby simplifying the pattern recognition protocols, training sets, and calibrations while maintaining the high overall reliability of the sensing process.
School:Bowling Green State University
School Location:USA - Ohio
Source Type:Master's Thesis
Keywords:sensing materials sensor arrays pattern recognition chemosensors ion detection anion metal cation explosives
Date of Publication:01/01/2008