Artificial receptors for chemical sensors

The first to provide systematically organized information on all three important aspects of artificial receptor design, this book brings together knowledge on an exceptionally hot and multidisciplinary field of research. Strong emphasis is placed on the methodology for discovering artificial receptors, with both definitions for chemosensitivity as well as experimental setups supplied. There follows coverage of numerous classes of artificial receptors, including synthesis, immobilization on surfaces, and quantitative data on properties. The third part of the book focuses on receptor arrays for artificial nose and tongue applications and the whole is rounded off with an outlook and an appendix with all relevant quantitative data on artificial receptors.

Preface QUANTITATIVE CHARACTERIZATION OF AFFINITY PROPERTIES OF IMMOBILIZED RECEPTORS Introduction Measurements Under Equilibrium Conditions Kinetic Measurements Analysis of Temperature Dependencies Experimental Techniques SELECTIVITY OF CHEMICAL RECEPTORS Introduction Some General Considerations on Selectivity Correlation Between Selectivity and Affinity Crown Ether and Cryptand Complexes: Hole Size Fitting and Other Effects Recogniction of Transition and Heavy Metal Ions Recognition via Ion Pairing Hydrogen Bonded Complexes and Solvent Effects Lewis Acid Receptors Complexes with Stacking and van der Waals Interactions Multifunctional Receptors for Recognition of Complex Target Molecules Conclusions COMBINATORIAL DEVELOPMENT OF SENSING MATERIALS Introduction General Principles of Combinatorial Materials Screening Opportunities for Sensing Materials Designs of Combinatorial Libraries of Sensing Materials Discovery and Optimization of Sensing Materials Using Discrete Arrays Optimization of Sensing Materials Using Gradient Arrays Emerging Wireless Technologies for Combinatorial Screening of Sensing Materials Summary and Outlook FLUORESCENT CYCLODEXTRINS AS CHEMOSENSORS FOR MOLECULE DETECTION IN WATER Introduction Pyrene-Appended Cyclodextrins Fluorophore-Amino Acid-CD Triad Systems Molecular Recognition by Regioisomers of Dansyl-Appended CDs Turn-On Fluorescent Chemosensors Effect of Protein Environment on Molecule Sensing CD-Peptide Conjugates as Chemosensors Immobilized Fluorescent CD on a Cellulose Membrane Conclusion CYCLOPEPTIDE DERIVED SYNTHETIC RECEPTORS Introduction Receptors for Cations Receptors for Ion Pairs Receptors for Anions Receptors for Neutral Substrates Conclusion BONORIC ACID-BASED RECEPTORS AND CHEMOSENSORS Introduction De Novo Design Combinatorial Approaches Template Directed Synthesis ARTIFICIAL RECEPTOR COMPOUNDS FOR CHIRAL RECOGNITION Introduction Cyclodextrins Crown Ethers Calixarenes Calix[4]resorcinarenes Miscellaneous Receptor Compounds Metal-Containing Receptor Compounds FULLERENE RECEPTORS BASED ON CALIXARENE DERIVATIVES Introduction Calixarenes Solid State Complexation by Calixarenes Comlexation in Solution Calixarenes as Molecular Scaffolds Outlook GUANIDINIUM BASED ANION RECEPTORS Introduction Instructive Historical Examples Recent Advances in Inorganic Anion Recognition Organic and Biological Phosphates Polycarboxylate Binding Amino Acid Recognition Dipeptides as Substrate Polypeptide Recognition Conclusion ARTIFICIAL RECEPTORS BASED ON SPREADER-BAR SYSTEMS POTENTIAL OF APTAMERS AS ARTIFICIAL RECEPTORS IN CHEMICAL SENSORS Introduction Generation and Synthesis of Aptamers Aptamer Arrays Techniques for Readout of Ligand Binding to the Aptamer Outlook/Summary CONDUCTING POLYMERS AS ARTIFICIAL RECEPTORS IN CHEMICAL SENSORS Introduction Transducers for Artificial Receptors Based on Conducting Polymers Intrinsic Sensitivity of Conducting Polymers Conducting Polymers Modified with Receptor Groups Conclusion MOLECULARLY IMPRINTED POLYMERS AS ARTIFICIAL RECEPTORS Introduction Fundamentals of Molecular Imprinting Polymer Formats and Polymerization Methods for MIPs Evaluation of MIP Performance - Imprinting Efficiency MIPs Mimicking Natural Receptors Conclusions and Outlook QUANTITATIVE AFFINITY DATA ON SELECTED ARTIFICIAL RECEPTORS Structures of Receptors