Titlebook: Biosensing for the 21st Century; Reinhard Renneberg,Fred Lisdat Book 2008 Springer-Verlag Berlin Heidelberg 2008 Biosensor.Biotechnology.D

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Protein Engineering and Electrochemical Biosensors,. The use of native proteins for this purpose cannotadequately embrace the limits of detection and level of stability required for a?usable sensor, dueto globular structure restraints. This review chapter attempts to give an accurate representation of thethree main strategies employed in the enginee

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New Trends in Immunoassays,ication technologies based either on new classesof biofunctional nanocrystals consisting of releasable fluorophores or on aggregation-induced emission (AIE)can improve the sensitivity and the limits of detection in immunoassays. A?bio-barcode assay alsoallows signal amplification by utilizing antibo

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Electrochemical Biochips for Protein Analysis,ears, highly sophisticated and powerful instrumentshave been developed that allow their detection and characterization with great precision and sensitivity.However, these instruments need well-equipped laboratories and a?well-trained staff. For the determinationof proteins in a?hospital, in a?doctor

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Amplified Transduction of Biomolecular Interactions Based on the Use of Nanomaterials, chapter reviews progress in the development of nanomaterialsfor amplified biosensing and discusses different nanomaterial-based bioamplification strategies. The emergenceof nanotechnology is opening new horizons for highly sensitive bioassays and for novel biosensor protocolsthat employ electronic,

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Photoelectrochemical and Optical Applications of Semiconductor Quantum Dots for Bioanalysis,cence quantum yields, and stability against photobleaching.These properties are utilized by applying the QDs as optical labels for the multiplexed analysis of immunocomplexesand DNA hybridization. Also, semiconductor QDs are used to probe biocatalytic transformations. The time-dependentreplication o

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Microsystems Technology and Biosensing,eins, small molecules, and cells, especially at thesingle-molecule and single-cell level. In order to sense these biomolecules with sensitivity we have fabricatedchip devices with respect to the biomolecule to be analyzed. The details of the fabrication are also dealtwith in this review. We mainly d

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Development of Microbial Sensors and Their Application,obial sensor consists of a?transducer andmicrobe as a?sensing element. The characteristics of the microbial sensors are a?complete contrastto those of enzyme sensors or immunosensors, which are highly specific for the substrates of interest, althoughthe specificity of the microbial sensor has been i