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Computational Methods for Sensor Material Selection [electronic resource] / edited by Margaret A. Ryan, Abhijit V. Shevade, Charles J. Taylor, M. L. Homer, Mario Blanco, Joseph R. Stetter.

Contributor(s): Series: Integrated Analytical SystemsPublisher: New York, NY : Springer US, 2010Description: XV, 319 p. online resourceContent type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9780387737157
Subject(s): Genre/Form: Additional physical formats: Printed edition:: No titleDDC classification:
  • 543 23
LOC classification:
  • QD71-142
Online resources:
Contents:
First Principles Methods For Materials Evaluation -- Introduction: Experimental Methods in Chemical Sensor and Sensor Array Evaluation and Development -- Electromechanical and Chemical Sensing at the Nanoscale: DFT and Transport Modeling -- Quantum Mechanics and First-Principles Molecular Dynamics Selection of Polymer Sensing Materials -- Prediction of Quartz Crystal Microbalance Gas Sensor Responses Using Grand Canonical Monte Carlo Method -- Computer-Aided Design of Organic Host Architectures for Selective Chemosensors -- First Principles Molecular Modeling of Sensing Material Selection for Hybrid Biomimetic Nanosensors -- Statistical And Multivariate Methods For Materials Evaluation -- Development of New Sensing Materials Using Combinatorial and High-Throughput Experimentation -- Chemical Sensor Array Response Modeling Using Quantitative Structure-Activity Relationships Technique -- Design and Information Content of Arrays of Sorption-Based Vapor Sensors Using Solubility Interactions and Linear Solvation Energy Relationships -- Designing Sensing Arrays -- A Statistical Approach to Materials Evaluation and Selection for Chemical Sensor Arrays -- Statistical Methods for Selecting the Components of a Sensing Array -- Hybrid Arrays for Chemical Sensing -- Future Directions -- Future Directions.
In: Springer eBooksSummary: In Computational Methods for Sensor Material Selection, experts discuss the design and selection of active sensing surfaces for chemical sensors, particularly sensors used in vapor sensing arrays or electronic noses. Part I covers first principles. Part II focuses on identifying and evaluating candidate sensing materials and covers such topics as calculations of sensor-analyte interactions, statistical and semi-empirical methods based on characteristics of sensing material and analyte, and new experimental methods. Part III advises on selecting materials for inclusion in arrays by use of statistical methods and algorithm-based methods for evaluating the array response to target analytes. This book will appeal to researchers in academia and industry involved in chemical vapor sensing and monitoring. Also, it will be of special interest to those who are developing devices based on chemical sensing arrays.
Item type: eBooks
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First Principles Methods For Materials Evaluation -- Introduction: Experimental Methods in Chemical Sensor and Sensor Array Evaluation and Development -- Electromechanical and Chemical Sensing at the Nanoscale: DFT and Transport Modeling -- Quantum Mechanics and First-Principles Molecular Dynamics Selection of Polymer Sensing Materials -- Prediction of Quartz Crystal Microbalance Gas Sensor Responses Using Grand Canonical Monte Carlo Method -- Computer-Aided Design of Organic Host Architectures for Selective Chemosensors -- First Principles Molecular Modeling of Sensing Material Selection for Hybrid Biomimetic Nanosensors -- Statistical And Multivariate Methods For Materials Evaluation -- Development of New Sensing Materials Using Combinatorial and High-Throughput Experimentation -- Chemical Sensor Array Response Modeling Using Quantitative Structure-Activity Relationships Technique -- Design and Information Content of Arrays of Sorption-Based Vapor Sensors Using Solubility Interactions and Linear Solvation Energy Relationships -- Designing Sensing Arrays -- A Statistical Approach to Materials Evaluation and Selection for Chemical Sensor Arrays -- Statistical Methods for Selecting the Components of a Sensing Array -- Hybrid Arrays for Chemical Sensing -- Future Directions -- Future Directions.

In Computational Methods for Sensor Material Selection, experts discuss the design and selection of active sensing surfaces for chemical sensors, particularly sensors used in vapor sensing arrays or electronic noses. Part I covers first principles. Part II focuses on identifying and evaluating candidate sensing materials and covers such topics as calculations of sensor-analyte interactions, statistical and semi-empirical methods based on characteristics of sensing material and analyte, and new experimental methods. Part III advises on selecting materials for inclusion in arrays by use of statistical methods and algorithm-based methods for evaluating the array response to target analytes. This book will appeal to researchers in academia and industry involved in chemical vapor sensing and monitoring. Also, it will be of special interest to those who are developing devices based on chemical sensing arrays.

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