Biosensors: An IntroductionWiley, 25 lug 1996 - 212 pagine Biosensors: An Introduction begins by introducing the reader, systematically and comprehensively, to the basic features of biosensors, discussing the types of biological materials used and the ways in which they can be connected with a variety of transducers to create the complete biosensor. Performance characteristics of a wide range of biosensors are discussed, and details of the most important types of biosensor currently used are presented. A highly practical chapter containing details of a number of biosensor experiments for undergraduate and postgraduate students is included, while applications of biosensors across a broad range of fields, and consideration of the commercial techniques for manufacturing biosensors, are presented in the final chapter. Biosensors: An Introduction is an invaluable reference source for anyone working with biosensors, and a highly practical learning tool for those studying any aspect of the subject. Its unique combination of introductory and more advanced material provides the necessary bridge for all those wishing to become more involved in this expanding and fascinating field. |
Dall'interno del libro
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Pagina 104
... luminol , shown in Figure 5.17 . There are other more complex substances which will react in a similar way . The luminol is normally used as label . It can be used in any assay involving oxygen , hydrogen peroxide or peroxidase . It is ...
... luminol , shown in Figure 5.17 . There are other more complex substances which will react in a similar way . The luminol is normally used as label . It can be used in any assay involving oxygen , hydrogen peroxide or peroxidase . It is ...
Pagina 105
... luminol will excite the fluorescence . In the bound Ag - Ab , the luminol emits light of 460 nm , which excites the fluorescer that in turn emits fluorescence at 525 nm , resulting in an increased quantum yield . At the same time ...
... luminol will excite the fluorescence . In the bound Ag - Ab , the luminol emits light of 460 nm , which excites the fluorescer that in turn emits fluorescence at 525 nm , resulting in an increased quantum yield . At the same time ...
Pagina 207
... luminol 103 lysine 21 malate 151 malathion 19 , 194 ( Ch . 6 ) maltose 164 , 165 mannitol 48 104 jack bean meal 19 see also urease kaolin , adsorption on 33 mass transport 144 , 195 ketonic species 186 kinases 79 kinetic theory 14 ...
... luminol 103 lysine 21 malate 151 malathion 19 , 194 ( Ch . 6 ) maltose 164 , 165 mannitol 48 104 jack bean meal 19 see also urease kaolin , adsorption on 33 mass transport 144 , 195 ketonic species 186 kinases 79 kinetic theory 14 ...
Sommario
Introduction | 1 |
Biological Elements | 13 |
Immobilisation of Biological Component | 31 |
Copyright | |
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