Biosensors Based on Nanomaterials and Nanodevices (Nanomaterials and their Applications)
Wednesday, 10 December 2014
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Product Details
- File Size: 77780 KB
- Print Length: 517 pages
- Publisher: CRC Press; 1 edition (January 10, 2014)
- Sold by: Amazon Digital Services, Inc.
- Language: English
Book Description
Biosensors Based on Nanomaterials and
Nanodevices links interdisciplinary research from leading experts to
provide graduate students, academics, researchers, and industry
professionals alike with a comprehensive source for key advancements and
future trends in nanostructured biosensor development. It describes the
concepts, principles, materials, device fabrications, functions, system
integrations, and applications of various types of biosensors based on
signal transduction mechanisms, including fluorescence, photonic
crystal, surface-enhanced Raman scattering, electrochemistry,
electro-luminescence, field-effect transistor, and magnetic effect. The
book: Explains how to utilize the unique properties of nanomaterials to
construct nanostructured biosensors to achieve enhanced performance
Features examples of biosensors based on both typical and emerging
nanomaterials, such as gold nanoparticles, quantum dots, graphene,
graphene oxides, magnetic nanoparticles, carbon nanotubes, inorganic
nanowires/nanorods, plasmonic nanostructures, and photonic crystals
Demonstrates the broad applications of nanostructured biosensors in
environmental monitoring, food safety, industrial quality assurance, and
in vitro and in vivo health diagnosis Inspires new ideas for tackling
multiscale and multidisciplinary issues in developing high-performance
biosensors for complex practical biomedical problems Focusing on the
connection between nanomaterials research and biosensor development,
Biosensors Based on Nanomaterials and Nanodevices illustrates the
exciting possibilities and critical challenges of biosensors based on
nanomaterials and nanodevices for future health monitoring, disease
diagnosis, therapeutic treatments, and beyond.
Editorial Reviews
Review
"Biosensors Based on Nanomaterials and Nanodevices
explains the essential technologies in nanotube-combined biosensors.
From the optical biosensors using nanoscale materials, the book covers
very recent technologies, including electrical, magnetic, and thermal
biosensors. The concise theories of each sensor platform provide a good
introduction for a general audience with a background at the university
level. Readers can find information about optical biosensors using
nanomaterials and nanodevices in the first section of the book. The
optical methods have been studied extensively because of their high
potential for biosensing applications. These methods have the advantages
of reliability, sensitivity, selectivity, and applicability for in vivo
detection, and an extensive discussion is included in the text. In the
beginning of the section, the fundamental theories and techniques
provide a guideline for beginning scholars, and, using the plasmonic
nanomaterials, the surface-enhanced Raman spectroscopy techniques are
intensively introduced. Furthermore, photonic crystals and
electroluminescence sensor platforms are explained with a new concept of
the future biosensors. In the second section, electrical biosensors are
reviewed with novel nanomaterials such as diamond, carbon nanotubes,
graphene, and inorganic semiconductor nanowires. The electrical
techniques are also widely developed because they are suitable for
handheld electronic devices. Using nanomaterials allows for the
enhancement of the sensor characteristics, and novel applications, such
as neuron interfacing and cellular detection, are enabled. Recent
advances on these techniques with well-established theories and examples
are found in this book. Nanomaterials are being developed not only for
the detection but for in vivo treatment. Magnetic nanoparticles
are described in the third section, including synthesis and
applications. Readers can find recent information about bioseparation,
drug delivery, and hyperthermia treatment using these particles. In the
final section, other new concepts of nanoscale platforms are introduced,
such as multiplexed detection using thermally addressable biosensors
and microfluidics for biosensor applications. The book provides
excellent information on well-established and emerging techniques to
readers who are interested in next-generation biosensor platforms.
It has fulfilled the need to provide information on nanomaterial-based
sensors with substantial theory. As a nanoscale semiconductor biosensor
engineer, I recommend this book to colleagues and students."
--Taiuk Rim, IEEE Nanotechnology Magazine, September 2014
--Taiuk Rim, IEEE Nanotechnology Magazine, September 2014
About the Author
Jun Li holds a PhD in chemistry from
Princeton University, New Jersey, USA. A recipient of NASA Tech Briefs’
Nano50 Innovator Award, he has engaged in research at Cornell
University, Ithaca, New York, USA; Molecular Imaging Inc., Ann Arbor,
Michigan, USA; Institute of Materials Research and Engineering,
Singapore; NASA Ames Research Center, Mountain View, California, USA;
and Kansas State University, Manhattan, USA—where he currently serves as
professor. A co-inventor of 15 patents and an associate editor for IEEE Transactions on Nanotechnology, he has published 120 peer-reviewed papers/book chapters and his work has been highlighted in over 40 news reports.
Nianqiang (Nick) Wu
currently serves as associate professor for West Virginia University,
Morgantown, USA; secretary of the Electrochemical Society’s Sensor
Division; and advisory board member for Interface, the home
journal of the Electrochemical Society. He holds a PhD in materials
science and engineering from Zhejiang University, Hangzhou, People’s
Republic of China. Previously he was a postdoctoral fellow at University
of Pittsburgh, Pennsylvania, USA and directed Keck Surface Science
Center at Northwestern University, Evanston, Illinois, USA. He has
organized several symposia on biosensors and solar fuels, holds four
patents/disclosures, and has published three book chapters and more than
110 journal papers.
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Judul: Biosensors Based on Nanomaterials and Nanodevices (Nanomaterials and their Applications)
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