Contents Notes |
pt. 1. Enzyme biosensors -- Principles of enzyme biosensors -- Enzyme biosensors based on pH electrode -- Enzyme biosensors based on gas electrodes -- Enzyme biosensors based on ISFETs -- Enzyme biosensors based on oxygen detection -- Enzyme biosensors based on the hydrogen peroxide electrode -- Enzyme biosensors based on mediator-modified carbon paste electrode -- Enzyme biosensors based on electron transfer between electode and immobilized peroxidases -- Enzyme biosensors based on redox polymers -- Enzyme biosensors based on metallized carbon electrodes -- Enzyme biosensors based on conducting polymers -- Enzyme sensors based on conductimetric measurement -- Enzyme biosensors based on thermal transducer/thermistor -- Enzyme biosensors based on fluorometric detection -- pt. 2. Microbial biosensors -- Microbial biosensors based on oxygen electrodes -- Microbial biosensors based on respiratory inhibition -- Microbial biosensors based on potentiometric detection -- Microbial biosensors based on optical detection. Detailing methods developed in their own labs, contributors provide protocols for enzyme biosensors based on potentiometric, amperometric, conductimetric, optical, and thermal transducers; and microbial biosensors based on oxygen-gas electrode and optical techniques in which microorganisms are coupled to the signal transducer. Chapter one provides an overview of the principles relevant to the design and operational features of enzyme-based biosensors. The contents of the companion volume, Affinity Biosensors are appended. Annotation copyrighted by Book News, Inc., Portland, OR. |