Benefits 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.

Sensing materials play a key role in the successful implementation of chemical and biological sensors. Written by prominent contributors to the field, Combinatorial Methods for Chemical and Biological Sensors documents the impact of combinatorial methods for the design of new polymeric, inorganic, biological, and formulated sensing materials. This valuable book examines the strategies for setting up successful techniques for the combinatorial preparation and functional high throughput screening of sensing materials arrays. The advances, remaining challenges, and opportunities in mining of new knowledge in sensing materials are critically analyzed. The book is addressed to the rapidly growing number of active practitioners and researchers in the field of sensing materials for chemical sensors and biosensors, directors of industrial and government research centers, laboratory supervisors and managers, students, and lecturers. Approaches examined in this book will be also of interest to materials science researchers.