Ashutosh Tiwari, Lokman Uzun
Hardcover: 720 pages Publisher: WILEY-Scrivener,USA
Language: English ISBN: 978-1-119-33629-7
From the Editors-
Molecularly imprinted polymers (MIPs) are a thoughtful functional material due to their potential implications in the diverse research fields. The range of affinity materials have been developed for separation, environmental, biomedical and sensor applications. In this book, the chapters are clustered into two main sections: strategies of affinity materials and rational design of MIP for advanced applications. In accordance to the main practice with MIPs, the recent advances in producing MIPs for sample design, preparation and characterizations are covered in the first part. In the second part, the distinguished authors summarized the importance and novelty of creation of recognition imprinted on the materials and surfaces for sensors, biomedical environmental and food safety for example microbial detections, drug delivery, cantilever sensor systems, chemical vapor sensing in human odour and virus monitoring.
In the terms of Advanced Materials, molecularly imprinted polymers are a kind of the applied materials due to their potential uses. Therefore, the number of research and review articles beside the related books has drastically appeared in the last decades. These materials, considered as artificial recognition elements, are comprehensively evaluated as advanced smart materials for separation, environmental and biomedical sciences, and biosensor applications. In this respect, we could not ignore these materials in the term of Advanced Materials Book Series and are very proud to share this book with you. It followed by the milestone applications as affinity adsorbent for environmental biotechnology and solid-phase extraction. The controlled drug release applications were summarized in two different perspectives, enhancing the material properties and adjusting release kinetics.
In this book, we clustered the chapters into two main sections: MIPs as adsorbent and MIPS as recognition element. In accordance to the main practice with MIPs, the recent advances in producing MIPs for sample preparation was the first stage for the book. Then, we created smooth transition from separation science to sensors by MIPs application for food safety. In the second cluster, the distinguished authors summarized the importance and novelty of creation of biorecognition imprinted on the biosensor surfaces. Further, MIP-based sensors for biomedical and environmental applications, fluorescent sensors, fiber optic sensing platforms were compiled by eminent authors. In addition, we finalized the book with three interesting chapters including advanced imprinted materials for cantilever sensor systems, chemical vapor sensing in human odor and virus monitoring. In the chapter 1, the author summarized recent advances in molecularly imprinted materials for sample preparation purpose. In this conjunction, another author compiled a genuine combination of solvent free sample preparation technique and molecularly imprinted nanomaterials in Chapter 2. Fluorescent molecularly imprinted materials and recent progress were summarized in Chapter 3. Chapter 4 included some novel applications of imprinted materials as micro- and nanotraps for solid phase extraction purpose. The authors summarized the carbonaceous imprinted materials with attractive applications for selective and specific analysis in Chapter 5. The last chapter of the first part (Chapter 6) summarized the use of imprinted materials as fiber optic sensor platform. In the second part, we combined the rational design of imprinted materials for advanced applications. Herein, biomedical and environmental applications of imprinted materials based sensors were compiled in Chapter 7. Moreover, Chapter 8 summarized the environmental biotechnology applications of imprinted materials. The authors summarized the molecularly imprinting technology for sensing and separation in food safety in Chapter 9. The one of the pioneer author compiled the advanced imprinted materials for virus monitoring in Chapter 10, which is the first comprehensive review in the related literature. In Chapter 11 and 12, the authors summarized the drug delivery and controlled release applications of the imprinted materials while focusing on releasing kinetics and materials development strategies, respectively. Chapter 13 included the novel creation strategies of biorecognition imprints on the biosensor surfaces. In Chapter 14, the authors figured out the recent application of imprinted materials for sensing of volatile organic compounds in human body odour. Finally, the authors compiled the attractive application of imprinted materials as a recognition element on the microcantilever sensor system.
In this context, this volume in the Advanced Materials Book Series includes 15 chapters with the excellent efforts of distinguished researchers from eleven different countries with more than twenty different academic and industrial affiliations. This wide readership including university students and researchers from diverse backgrounds such as physics, chemistry and chemical engineering, materials science and nanotechnology engineering, electrical and computer engineering, biomedical engineering, environmental sciences, food sciences, life sciences, pharmacy, veterinary, medicine, military academy, and biotechnology. It can be used not only as a textbook for undergraduate and graduate students but also as a review and reference book for researchers in the materials science, bioengineering, medical, physics, forensics, agriculture, biotechnology, food safety, and nanotechnology arenas. We hope that the chapters of this book will provide the reader with valuable insight into molecularly imprinted polymers as advanced smart materials in respect to the different prominent features in novel designs and future applications.
Description of Book-
Part 1: Strategies of affinity materials
Chapter 1
Recent molecularly imprinted polymer-based methods for sample preparation
Antonio Martín-Esteban, Spain
Chapter 2
A genuine combination of solvent-free sample preparation technique and molecularly imprinted nanomaterials
Rashmi Madhuri, India
Chapter 3
Fluorescent molecularly imprinted polymers (fMIPs)
Knut Rurack, Germany
Chapter 4
Molecularly imprinted polymer (MIP) based micro- and nanotraps for solid phase extraction (SPE)
Ridvan Say, Turkey
Chapter 5
Imprinted carbonaceous nanomaterials: A tiny looking big thing in the field of selective and specific analysis
Rashmi Madhuri, India
Chapter 6
Molecularly imprinted materials for fiber optic sensor platforms
Müfrettin Murat Sari, Turkey
Part 2: Rational design of MIP for advanced applications
Chapter 7
Molecularly imprinted polymer based sensors for biomedical and environmental applications
Cecilia Cristea, Romania
Chapter 8
Molecularly imprinted polymers: the affinity adsorbents for environmental biotechnology
Gizem Ertürk, Sweden
Chapter 9
Molecular imprinting technology for sensing and separation in food safety
Mehmet ODABAŞI, Turkey
Chapter 10
Advanced imprinted materials for virus monitoring
Zeynep Altintas, Germany
Chapter 11
Design and evaluation of molecularly imprinted polymers as drug delivery systems
André Luís Morais Ruela, Brazil
Chapter 12
Molecularly imprinted materials for controlled release systems
Müfrettin Murat Sari, Turkey
Chapter 13
Molecular imprinting: The creation of biorecognition imprints on the biosensor surfaces
Gizem Ertürk, Sweden
Chapter 14
Molecular imprinted polymers for sensing of volatile organic compounds (VOCs) in human body odour
Sunil. Kr. Jha, Macedonia
Chapter 15
Development of molecularly imprinted polymer based microcantilever sensor system
Meltem Okan, Turkey