InhaltsangabeBenefits of Combinatorial Approaches to Sensor Problems.- to Combinatorial Methods for Chemical and Biological Sensors.- Main Concepts of Chemical and Biological Sensing.- Self-Assembled Monolayers and Nanoparticles.- Self-Assembled Monolayers with Molecular Gradients.- Combinatorial Libraries of Fluorescent Monolayers on Glass.- High-Throughput Screening of Vapor Selectivity of Multisize CdSe Nanocrystal/Polymer Composite Films.- Molecular Imprinting.- Computational Design of Molecularly Imprinted Polymers.- Experimental Combinatorial Methods in Molecular Imprinting.- Biological Receptors.- Combinatorially Developed Peptide Receptors for Biosensors.- Combinatorial Libraries of Arrayable Single-Chain Antibodies.- A Modular Strategy for Development of RNA-Based Fluorescent Sensors.- Inorganic Gas-Sensing Materials.- Impedometric Screening of Gas-Sensitive Inorganic Materials.- Design of Selective Gas Sensors Using Combinatorial Solution Deposition of Oxide Semiconductor Films.- Electrochemical Synthesis of Sensing Materials.- Combinatorial Development of Chemosensitive Conductive Polymers.- Robotic Systems for Combinatorial Electrochemistry.- Optical Sensing Materials.- Combinatorial Chemistry for Optical Sensing Applications.- High Throughput Production and Screening Strategies for Creating Advanced Biomaterials and Chemical Sensors.- Diversity-Oriented Fluorescence Library Approach for Novel Sensor Development.- Construction of a Coumarin Library for Development of Fluorescent Sensors.- Mining of New Knowledge on Sensing Materials.- Determination of Quantitative Structure-Property Relationships of Solvent Resistance of Polycarbonate Copolymers Using a Resonant Multisensor System.- Computational Approaches to Design and Evaluation of Chemical Sensing Materials.- Outlook.- Combinatorial Methods for Chemical and Biological Sensors: Outlook.

Combinatorial concepts for sensor materials development.- Impedometric screening of gas-sensitive inorganic materials.- Combinatorial electrochemical synthesis of conductive polymers and multiparameter screening of their chemosensitive properties.- Gradient polymeric formulations techniques.- Robotic system for combinatorial electrochemistry.- Formation of gradient self-assembled monolayers.- Combinatorial methods in molecular imprinting.- Materials for polymeric optical sensors for gases and liquids.- Metal-ion binding polyphenol polymers.- Combinatorial libraries of inorganic materials for semiconductor gas sensors.- Combinatorial libraries of organic and inorganic materials for conductive and potentiometric gas sensing.- Combinatorial development of composite vapor sensing materials.- High-throughput development of polymeric materials for resonant sensors.- Combinatorial libraries of fluorescent monolayers.- High-throughput screening of biodegradable polymer and sol-gel formulations.- Combinatorially developed peptide receptors for biosensors.- High throughput engineering of recombinant human antibodies.- Aptamers as combinatorially developed novel bioreceptors.- Combinatorial libraries of biomolecules for sensor arrays .-Combinatorial libraries of arrayable single-chain antibodies.- Combinatorial augmentation for multi-pathogen biosensors.- Generic algorithms.- Computational design strategies for combinatorial libraries.- Inorganic sensor materials: Data clustering.- Quantitative Structure-Property Relationships in Polycarbonate Copolymers for Sensors and Microfluidics.- Outlook.

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