POLYMER MEMBRANE-BASED ION-SELECTIVE, GAS-SELECTIVE AND BIO-SELECTIVEPOTENTIOMETRIC SENSORS

Recent progress in the design of new polymer membrane-based potentiome tric ion-, gas- and bio-selective electrodes in chemistry laboratories at the University of Michigan (Ann Arbor) is reviewed. Emphasis is pl aced on describing the performance of devices for measuring anions (e. g., salicylate, thiocyanate, chloride and heparin) and gases (e.g., am monia, carbon dioxide and oxygen) in biological samples, both in vitro and in vivo. Beyond direct measurement of key ions and gases in compl ex matrices, some of the new membrane electrode systems reported can s erve as base transducers for the development of biosensors containing integrated biological reagents, including enzymes and antibodies. New approaches for mass fabricating solid-state ion and biosensor devices as well as future directions for research in the entire field of polym er membrane sensors are also described.