Advanced molecularly imprinting materials / edited by Ashutosh Tiwari and Lokman Uzun.
Material type:
TextSeries: Advanced Material SeriesPublisher: Beverly, Massachusetts ; Hoboken, New Jersey : Scrivener Publishing : John Wiley & Sons, Inc., 2017Copyright date: ©2017Description: 1 online resource (723 pages) : illustrationsContent type: - text
- computer
- online resource
- 9781119336167 (e-book)
- 668.9/2 23
- TP156.P6 .A383 2017
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Enhanced descriptions from Syndetics:
Molecularly imprinted polymers (MIPs) are an important functional material because of their potential implications in diverse research fields. The materials have been developed for a range of uses including separation, environmental, biomedical and sensor applications. In this book, the chapters are clustered into two main sections: Strategies to be employed when using the affinity materials, and rational design of MIPs for advanced applications. In the first part, the book covers the recent advances in producing MIPs for sample design, preparation and characterizations. In the second part, the chapters demonstrate the importance and novelty of creation of recognition imprinted on the materials and surfaces for a range of microbial detection sensors in the biomedical, environmental and food safety fields as well as sensing human odor and virus monitoring systems.
Part 1: Strategies of affinity materials
Molecularly imprinted polymers MIP nanomaterials Micro- and nanotraps for solid phase extraction Carbonaceous affinity nanomaterials Fluorescent MIPs MIP-based fiber optic sensorsPart 2: Rational design of MIP for advanced applications
MIP-based biomedical and environmental sensors Affinity adsorbents for environmental biotechnology MIP in food safety MIP-based virus monitoring MIP-based drug delivery and controlled release Biorecognition imprints on the biosensor surfaces MIP-based sensing of volatile organic compounds in human body odour MIP-based microcantilever sensor systemIncludes index.
Description based on print version record.
Electronic reproduction. Ann Arbor, MI : ProQuest, 2016. Available via World Wide Web. Access may be limited to ProQuest affiliated libraries.
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