Overview

Biosensors are devices that detect the presence of microbials such as bacteria, viruses or a range biomolecules, including proteins, enzymes, DNA and RNA. For example, they are routinely applied for monitoring the glucose concentration in blood, quality analysis of fresh and waste water and for food control.

Full Product Details

Author:   Songjun Li ,  Jagdish Singh ,  He Li ,  Ipsita A. Banerjee
Publisher:   Wiley-VCH Verlag GmbH
Imprint:   Wiley-VCH Verlag GmbH
Dimensions:   Width: 17.80cm , Height: 1.90cm , Length: 24.90cm
Weight:   0.696kg
ISBN:  

9783527328413

ISBN 10:   3527328416
Pages:   296
Publication Date:   23 February 2011
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   In Print  
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Table of Contents

Preface NEW MICRO- AND NANOTECHNOLOGIES FOR ELECTROCHEMICAL BIOSENSOR DEVELOPMENT Introduction Carbon Nanotubes Conductive Polymer Nanostructures Nanoparticles Conclusions ADVANCED NANOPARTICLES IN MEDICAL BIOSENSORS Introduction Nanoparticles Conclusions and Outlook SMART POLYMERIC NANOFIBERS RESOLVING BIORECOGNITION ISSUES Introduction Nanofibers Electrospinning of Nanofibers Biorecognition Devices Conclusions FABRICATION AND EVALUATION OF NANOPARTICLE-BASED BIOSENSRS Introduction Nanoparticle-Based Biosensors and their Fabrication Evaluation of Nanoparticle-Based Nanosensors Applications of Nanoparticle-Based Biosensors Conclusions ENZYME-BASED BIOSENSORS: SYNTHESIS AND APPLICATIONS Introduction Synthesis and Characterization of Biosensor Supports Aplication of Enzyme-Based Biosensors Conclusions ENERGY HARVESTING FOR BIOSENSORS USING BIOFRIENDLY MATERIALS Introduction Energy Production and Consumption Classification of Energy-Harvesting Devices Conclusions CARBON NANOTUBES: IN VITRO AND IN VIVO SENSING AND IMAGING Introduction Carbon Nanotubes: Structure, Physical and Chemical Properties, and Applications Near-IR Absorption of Carbon Nanotubes Near-IR Photoluminescence of Single-Walled Carbon Nanotubes Raman Scattering of Carbon Nanotubes Conclusions and Outlook LIPID NANOPARTICLE-MEDIATED DETECTION OF PROTEINS Introduction to Liposomes Saturated Liposomes Polymerized Liposomes Conclusions NANOMATERIALS FOR OPTICAL IMAGING Introduction Doped Nanoparticles Conclusions and Outlook SEMICONDUCTOR QUANTUM DOTS FOR ELECTROCHEMICAL BIOSENSORS Introduction Attachment of Biomolecules to Quantum Dots Quantum Dot-Based Redox Proteins Biosensor Quantum Dot-Based Electrochemical Biosensors of Proteins and DNA Conclusions FUNCTIONALIZED GRAPHENE FOR BIOSENSING APPLICATIONS Introduction Preparation of Graphene Functionalized Graphene with Metal Nanoparticles Glucose Biosensors Based on Graphene Immunosensors Based on Graphene Other Electrochemical Biosensors Based on Graphene Conclusions CURRENT FRONTIERS IN ELECTROCHEMICAL BIOSENSORS USING CHITOSAN NANOCOMPOSITES Introduction Chitosan Chitosan Nanocomposite-Based Electrochemical Biosensors Chitosan Nanocomposite-Based Amperometric Biosensors Chitosan Nanocomposite-Based Potentiometric Biosensors Chitosan Nanocomposite-Based Conductimetric Biosensors Conclusions and Future Aspects NANOMATERIALS AS PROMISING DNA BIOSENSORS Introduction Nanomaterials as Single Amplifiers for Hybridization Conclusions NANOCOMPOSITES AND THEIR BIOSENSOR APPLICATIONS Introduction Nanocomposites Biosensors Types of Biosensors Biosensors Applications Nanocomposites for Biosensor Applications Conclusions

Reviews

“It is recommended for those interested in acquiring more insight knowledge of the latest developments in this still evolving topic.”  (Materials Views, 8 July 2013)  

<p> It is recommended for those interested in acquiring more insight knowledge of the latest developments in this still evolving topic. (Materials Views, 8 July 2013) <p>

Author Information

Dr. Songjun Li currently serves as president of the International Association of Advanced Materials and Editor-in-Chief of the international Journal Advanced Materials Letters. He is also Chair of the 1st International Congress on Advanced Materials, 13-16 May 2011, Jinan, China. Since his PhD in polymer chemistry, received from Chinese Academy of Sciences, his scientific interests focus on the chemistry of biosensors and molecularly imprinted polymers. Dr. Li was appointed by the Central China Normal University as an associate professor of chemistry in 2005. He was further appointed as an invited professor by the University of Jinan (China) in 2009 and a part-time professor by Jiangsu University in 2010. He is currently the specially appointed professor in the University of Allahabad (India). Jagdish Singh is Professor and Chair of the Department of Pharmaceutical Sciences at NDSU College of Pharmacy, North Dakota, USA, and Fellow of the American Association of Pharmaceutical Scientists (AAPS). His research efforts focus on the mechanistic studies for developing and testing novel methods to deliver biotechnology-derived molecules. Jagdish Singh received twice the NDSU College of Pharmacy Researcher of the Year awards and was recognized with the Fred Waldron Research Award in 2002 in recognition of his outstanding contributions to research and creative activities at NDSU. Dr. He Li, associated editor for Advanced Materials Letters, is an associate Professor of Chemistry in the School of Medical and Life Sciences at University of Jinan (UJN), China. He got his PhD degree in 2004 in Chengdu Institute of Organic Chemistry, Chinese Academy of Sciences. Subsequently, he was appointed by UJN as an associate professor with research interests in biosensor and nanomedicine. He worked as the dean of Pharmaceutical Engineering Department of UJN since 2007. Ipsita A. Banerjee is an Associate Professor of Chemistry at Fordham University, New York, USA. She did her Ph.D in Chemistry from the University of Connecticut, USA and Postdoctoral research from the University of Notre Dame, South Bend, Indiana and from Hunter College, City University of New York in Bionanotechnology. Her research efforts are geared toward the study of molecular self-assembly and formation of supramolecular nanostructures for the development of biomaterials for tissue-engineering, and biosensors particularly for examining cellular interactions in vitro. Efforts are also on going for the green-synthesis of nanoparticles for optoelectronics applications.

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