Molecularly Imprinted Polymers :Man-Made Mimics of Antibodies and their Application in Analytical Chemistry ( Volume 23 )

Publication subTitle :Man-Made Mimics of Antibodies and their Application in Analytical Chemistry

Publication series :Volume 23

Author: Sellergren   B.  

Publisher: Elsevier Science‎

Publication year: 2000

E-ISBN: 9780080536804

P-ISBN(Paperback): 9780444828378

P-ISBN(Hardback):  9780444828378

Subject: Q503 biochemical techniques

Language: ENG

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Description

This book is divided into 5 sections starting with an historic perspective and fundamental aspects on the synthesis and recognition by imprinted polymers. The second section contains 8 up-to-date overview chapters on current approaches to molecular and ion imprinting. This is followed by two chapters on new material morphologies and in the last two sections various analytical applications of imprinted polymers are given, with the last four chapters devoted to the promising field of imprinted polymers in chemical sensors.
The authors of this volume have widely different backgrounds; mainly polymer chemistry, organic chemistry, biochemistry and analytical chemistry, which means that this book has an interdisciplinary character and should appeal to a broad audience.

Chapter

Cover

pp.:  1 – 6

Contents

pp.:  6 – 18

Preface

pp.:  18 – 20

List of Contributors

pp.:  20 – 23

Abbreviations

pp.:  23 – 26

CHAPTER 1. A HISTORICAL PERSPECTIVE OF THE DEVELOPMENT OF MOLECULAR IMPRINTING

pp.:  26 – 46

CHAPTER 2. FUNDAMENTAL ASPECTS ON THE SYNTHESIS AND CHARACTERISATION OF IMPRINTED NETWORK POLYMERS

pp.:  46 – 84

CHAPTER 3. THERMODYNAMIC PRINCIPLES UNDERLYING MOLECULARLY IMPRINTED POLYMER FORMULATION AND LIGAND RECOGNITION

pp.:  84 – 96

CHAPTER 4. MOLECULAR IMPRINTING WITH COVALENT OR STOICHIOMETRIC NON-COVALENT INTERACTIONS

pp.:  96 – 138

CHAPTER 5. THE NON-COVALENT APPROACH TO MOLECULAR IMPRINTING

pp.:  138 – 210

CHAPTER 6. METAL-ION COORDINATION IN DESIGNING MOLECULARLY IMPRINTED POLYMERIC RECEPTORS

pp.:  210 – 228

CHAPTER 7. COVALENT IMPRINTING USING SACRIFICIAL SPACERS

pp.:  228 – 238

CHAPTER 8. MOLECULAR IMPRINTING APPROACHES USING INORGANIC MATRICES

pp.:  238 – 270

CHAPTER 9. IMPRINTING POLYMERISATION FOR RECOGNITION AND SEPARATION OF METAL IONS

pp.:  270 – 296

CHAPTER 10. BIO-IMPRINTING: POLYMERIC RECEPTORS WITH AND FOR BIOLOGICAL MACROMOLECULES

pp.:  296 – 320

CHAPTER 11. SURFACE IMPRINTING OF MICROORGANISMS

pp.:  320 – 330

CHAPTER 12. POLYMERISATION TECHNIQUES FOR THE FORMATION OF IMPRINTED BEADS

pp.:  330 – 350

CHAPTER 13. TECHNIQUES FOR THE IN SITU PREPARATION OF IMPRINTED POLYMERS

pp.:  350 – 366

CHAPTER 14. APPLICATION OF MOLECULARLY IMPRINTED POLYMERS IN COMPETITIVE LIGAND BINDING ASSAYS FOR ANALYSIS OF BIOLOGICAL SAMPLES

pp.:  366 – 380

CHAPTER 15. MOLECULARLY IMPRINTED POLYMERS IN SOLID PHASE EXTRACTIONS

pp.:  380 – 402

CHAPTER 16. CAPILLARY ELECTROCHROMATOGRAPHY BASED ON MOLECULAR IMPRINTING

pp.:  402 – 420

CHAPTER 17. MOLECULARLY IMPRINTED POLYMERS IN ENANTIOMER SEPARATIONS

pp.:  420 – 442

CHAPTER 18. BIOMIMETIC ELECTROCHEMICAL SENSORS BASED ON MOLECULAR IMPRINTING

pp.:  442 – 466

CHAPTER 19. IONIC SENSORS BASED ON MOLECULARLY IMPRINTED POLYMERS

pp.:  466 – 492

CHAPTER 20. TOWARD OPTICAL SENSORS FOR BIOLOGICALLY ACTIVE MOLECULES

pp.:  492 – 528

CHAPTER 21. NON-COVALENT MOLECULARLY IMPRINTED SENSORS FOR VAPOURS, POLYAROMATIC HYDROCARBONS AND COMPLEX MIXTURES

pp.:  528 – 584

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