This second volume on a burgeoning field retains the proven concept of the spectacularly successful first one, extending and supplementing it. Individual sections are each dedicated to nanoparticles, nanostructures and patterns, nanodevices and machines, and nanoanalytics. Essential reading for an entire generation of scientists, this authoritative survey defines one of the most important new scientific fields to have emerged for many decades.
This second volume on a burgeoning field retains the proven concept of the spectacularly successful first one, extending and supplementing it. Individual sections are each dedicated to nanoparticles, nanostructures and patterns, nanodevices and machines, and nanoanalytics. Essential reading for an entire generation of scientists, this authoritative survey defines one of the most important new scientific fields to have emerged for many decades.
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Autorenporträt
Chad A. Mirkin is the George B. Rathmann Professor of Chemistry and the Director of the Institute for Nanotechnology and the Center for Nanofabrication and Molecular Self-Assembly at Northwestern University in Evanston. Professor Mirkin holds a B.S. degree from Dickinson College (1986) and a Ph.D. degree in chemistry from The Pennsylvania State University (1989). He was a NSF Postdoctoral Fellow at the Massachusetts Institute of Technology before becoming a chemistry professor at Northwestern University in 1991. Professor Mirkin is known for his development of nanoparticle-based biodetection schemes and his invention of Dip-Pen Nanolithography. He is the founder of two companies, Nanosphere and NanoInk, which are commercializing nanotechnology applications in the life science and semiconductor industries.
Christof M. Niemeyer is Professor of Chemistry at the University of Dortmund (Germany) where he holds the chair of Biological and Chemical Microstructuring. He studied chemistry at the University of Marburg and did his Ph.D. thesis at the Max-Planck-Institut fr Kohlenforschung in Mlheim/Ruhr under the supervision of Manfred Reetz. After a postdoctorate with Charles Cantor at the Center for Advanced Biotechnology in Boston (USA) he went back to Germany, where he worked with Dietmar Blohm at the University of Bremen to complete his habilitation before moving to Dortmund as a full Professor in 2002. He is interested in semisynthetic DNA-protein and DNA-nanoparticle conjugates and their applications in life sciences, catalysis and molecular nanotechnology.
Inhaltsangabe
SELF-ASSEMBLY & NANOPARTICLES - NOVEL PRINCIPLES Self-Assembled Artificial Transmembrane Ion Channels Self-Assembling DNA Nanostructures for Patterned Molecular Assembly Synthesis and Assembly of Nanoparticles and Nanostructures Using Bioderived Templates Proteins and Nanoparticles: Covalent and Non-Covalent Conjugates DNA Nanostructures for Patterned Molecular Assembly and Controlled Molecular Transport Biocatalytic Growth of Nanoparticles for Sensors and Circuitry NANOSTRUCTURES FOR ANALYTICS Nanoparticles for Electrochemical Bioassays Luminiscent Semiconductor Quantum Dots in Biology Nanoscale Localized Surface Plasmon Resonance Biosensors Cantilever Array Sensors for Bioanalysis Scanning Ion Conduction Microscopy Label-Free Nanowire and Nanotube Biomolecular Sensors for In Vitro Diagnostics of Cancer and other Diseases Bionanarrays NANOSTRUCTURES FOR MEDICINAL APPLICATIONS Biological Barriers to Nanocarrier-Mediated Delivery of Therapeutic and Imaging Agents Organic Nanoparticles: Adapting Emerging Techniques from the Electronics Industry for the Generation of Shape-Specific, Functionalized Carriers for Applications in Nanomedicine Poly(amidoamine) Dendrimer-Based Multifunctional Nanoparticles Nanoparticle Contrast Agents for Molecular Magnetic Resonance Imaging Micro- and Nanoscale Control of Cellular Environment for Tissue Engineering Diagnostics and Therapeutic Targeted Perfluorocarbon Nanoparticles NANOMOTORS Biological Nanomotors Biologically Inspired Hybrid Nanodevices
SELF-ASSEMBLY & NANOPARTICLES - NOVEL PRINCIPLES Self-Assembled Artificial Transmembrane Ion Channels Self-Assembling DNA Nanostructures for Patterned Molecular Assembly Synthesis and Assembly of Nanoparticles and Nanostructures Using Bioderived Templates Proteins and Nanoparticles: Covalent and Non-Covalent Conjugates DNA Nanostructures for Patterned Molecular Assembly and Controlled Molecular Transport Biocatalytic Growth of Nanoparticles for Sensors and Circuitry NANOSTRUCTURES FOR ANALYTICS Nanoparticles for Electrochemical Bioassays Luminiscent Semiconductor Quantum Dots in Biology Nanoscale Localized Surface Plasmon Resonance Biosensors Cantilever Array Sensors for Bioanalysis Scanning Ion Conduction Microscopy Label-Free Nanowire and Nanotube Biomolecular Sensors for In Vitro Diagnostics of Cancer and other Diseases Bionanarrays NANOSTRUCTURES FOR MEDICINAL APPLICATIONS Biological Barriers to Nanocarrier-Mediated Delivery of Therapeutic and Imaging Agents Organic Nanoparticles: Adapting Emerging Techniques from the Electronics Industry for the Generation of Shape-Specific, Functionalized Carriers for Applications in Nanomedicine Poly(amidoamine) Dendrimer-Based Multifunctional Nanoparticles Nanoparticle Contrast Agents for Molecular Magnetic Resonance Imaging Micro- and Nanoscale Control of Cellular Environment for Tissue Engineering Diagnostics and Therapeutic Targeted Perfluorocarbon Nanoparticles NANOMOTORS Biological Nanomotors Biologically Inspired Hybrid Nanodevices
Rezensionen
"In summary, this books represents a fine collection of chapters describing current thinking on this subject..." nanotoday (October 2007, Volume 2, Number 5)
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