Artificial receptors for chemical sensors. (2010)
- Record Type:
- Book
- Title:
- Artificial receptors for chemical sensors. (2010)
- Main Title:
- Artificial receptors for chemical sensors
- Further Information:
- Note: Edited by Vladimir M. Mirsky, Anatoly Yatsimirsky.
- Other Names:
- Mirsky, Vladimir M
Yatsimirsky, Anatoly K - Contents:
- 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-PeptidePreface; ; 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 … (more)
- Publisher Details:
- Place of publication not identified : Wiley-VCH
- Publication Date:
- 2010
- Extent:
- 1 online resource (486 pages)
- Subjects:
- 546.0284
Chemoreceptors - Languages:
- English
- ISBNs:
- 9783527632503
- Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
- Access Usage:
- Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force.
- View Content:
- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library HMNTS - ELD.DS.376863
- Ingest File:
- 02_356.xml