Willner / Katz | Bioelectronics | E-Book | sack.de
E-Book

E-Book, Englisch, 475 Seiten, E-Book

Willner / Katz Bioelectronics

From Theory to Applications
1. Auflage 2006
ISBN: 978-3-527-60418-0
Verlag: Wiley-VCH
Format: PDF
 Kopierschutz: Adobe DRM (»Systemvoraussetzungen)

From Theory to Applications

E-Book, Englisch, 475 Seiten, E-Book

ISBN: 978-3-527-60418-0
Verlag: Wiley-VCH
Format: PDF
 Kopierschutz: Adobe DRM (»Systemvoraussetzungen)

Im Laufe von Jahrmillionen brachte die Natur faszinierend komplexe biologische Strukturen hervor - eine nanotechnologische Schatzkammer, die Naturwissenschaft und Technik gerade erst zu erobern beginnen. Bio- und Immunosensoren, neuronale Rechner, biochemische "Fabriken" im Nanomaßstab gehören zu den viel versprechenden, zukunftsweisenden Anwendungsfeldern. Dieses Buch führt Naturwissenschaftler, Ingenieure und Studenten in das hochinteressante, interdisziplinäre Forschungsgebiet der Bioelektronik ein.

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Autoren/Hrsg.

Willner, Itamar
Katz, Eugenii

Weitere Infos & Material

Introduction
 
Electron Transfer in Proteins
 
Reconstituted Redox Enzymes on Electrodes: from Fundamental Understanding of Electron Transfer at Functionalized Electrode Interfaces to Biosensor and Biofuel Cell Applications
 
Application of Electrically Contacted Enzymes for Biosensors
 
Electronic DNA Sensors
 
Probing Biomaterials on Surfaces at the Single Molecule Level for Bioelectronics
 
Interfacing Biological Molecules with Group IV Semiconductors for Bioelectronic Sensing
 
Biomaterial-Nanoparticle Hybrid Systems for Sensing and Electronic Devices
 
DNA-Templated Electronics
 
Single Biomolecule Manipulation for Bioelectronics
 
Molecular Optobioelectronics
 
Neurons and Bioelectronics
 
S-Layer Proteins in Bioelectronic Applications
 
Computing with Nucleic Acids

Conclusions and Perspectives
 

Introduction
Electron Transfer in DNA - Theory and Experiments
Electron Transfer through Proteins
Alignment of Redox Enzymes on Surfaces
Application of Electrically Contacted Enzymes for Biosensors
Electronic DNA Sensors
Probing Biomaterials on Surfaces at the Single Molecule Level for Bioelectronics
Interfacing Biological Molecules with Group IV Semiconductors for Bioelectronic Sensing
Biomaterial-Nanoparticle Hybrid Systems for Sensing and Electronic Devices
DNA-Templated Electronics
Single Biomolecule Manipulation for Bioelectronics
Molecular Optobioelectronicc
The Neuron-Semiconductor Interface
S-Layer Proteins in Bioelectronic Applications
Computing with Nucleic Acids
Conclusions and Perspectives

Itamar Willner is Professor of Chemistry at the Institute of Chemistry, The Hebrew University of Jerusalem, Israel. He graduated from the Hebrew University (1978), and after postdoctoral research at Berkley, he joined the faculty in Jerusalem in 1982. Prof. Willner is well known for his research in the areas of molecular electronics and optoelectronics, nanotechnology, bioelectronics, biosensors, optobioelectronics, nanobiotechnology, supramolecular chemistry, nanoscale chemistry and monolayer and thin-film assemblies. Prof. Willner holds the Israel Prize in Chemistry (2002), the Israel Chemical Society Award (2001) and the Max-Planck Research Award for International Cooperation (1998). He is a member of the Israel Academy of Sciences and Humanities and a member of the European Academy of Sciences.
 
Eugenii Katz is a Senior Research Associate at the Institute of Chemistry, The Hebrew University of Jerusalem, Israel. He completed his Ph.D. in 1983 at the Frumkin Institute of Electrochemistry, Moscow, and until 1991 acted as senior scientist at the Institute of Photosynthesis, Pushchino, Russia. In 1991 he performed postdoctoral research at The Hebrew University of Jerusalem and later, as a recipient of the Humboldt scholarship, he worked at the Technical University of Munich (1993). He joined the research group of I. Willner at the Hebrew University in 1994. Dr. Katz holds the Kaye Awards for Scientific Innovations (1995 and 2004). His research interests include electroanalytical chemistry, functionalized monolayers, functionalized nanoparticles, biosensors, biofuel cells and bioelectronics.

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