Part 1 Biosensers: diagnostic polymers and coatings - chemistry, technology and applications, Arthur M. Usmani; fiber-optic sensors based on degradable polymers, Venetka Agayn and David R. Walt; enhancement of the stability of wired quinoprotein glucose dehydrogenase electrode, Ling Ye et al; amperometric glucose-sensing electrodes with the use of modified enzymes, F. Mizutani et al; electron-transport rates in an enzyme electrode for glucose, Nigel A. Surridge et al; sandwich-type amperometric enzyme electrodes for determination of glucose, S. Mutlu et al; reproducible electrodeposition technique for immobilizing glucose oxidase and a differentially permeable outer-membrane material for use on a miniature implantable glucose sensor, K.W. Johnson et al; thin-layer flow-through enzyme immunosensor based on polycaprolactam net, Lizhi Yin et al. Part 2 Biosensor polymers and membranes: conducting polymers and their application in amperometric biosensors, Wolfgang Schuhmann; poly(ether amine quinone)s as electron-transfer relay systems in amperometric glucose sensors, Hsing Lin Lan et al; flow-injection analysis of some anionic species - automated, miniaturized, dual-working electrode potentiostat using a poly(3-methylthiophene)-modified electrode, Elmo A. Blubaugh et al; characterization of stability of modified poly(vinyl chloride) membranes for microfabricated ion-selective electrode arrays in biomedical applications, Ernoe Lindner et al; biosensors based on ultrathin film composite membranes, Charles R. Martin et al; viologen derivative containing polysiloxane as an electron-transfer mediator in amperometric glucose sensors, Hirokio I. Karan et al; hydrogen peroxide electrodes based on electrical connection of redox centres of various peroxidases to electrodes through a three-dimensional electron-relaying polymer network, Mark S. Vreeke and Adam Heller. Part 3 Biocompatibility and biomimetics. Part 4 Immobilization and stabilization methods. (Part contents)
