Details

Polymeric Sensors and Actuators


Polymeric Sensors and Actuators


Polymer Science and Plastics Engineering 1. Aufl.

von: Johannes Karl Fink

186,99 €

Verlag: Wiley
Format: PDF
Veröffentl.: 07.11.2012
ISBN/EAN: 9781118547700
Sprache: englisch
Anzahl Seiten: 536

DRM-geschütztes eBook, Sie benötigen z.B. Adobe Digital Editions und eine Adobe ID zum Lesen.

Beschreibungen

<p><b>The book exhaustively covers the various polymers that are used for sensors and actuators from the perspective of organic chemistry.</b></p> <p>The field of polymeric sensors and actuators is developing very rapidly as newly derived polymer materials are suitable for sensor technology. This book uniquely and comprehensively covers the various polymers that are used for sensors and actuators. The author has researched both scientific papers and patents to include all the recent discoveries and applications. Since many chemists may not be very familiar with the physical background as well as how sensors operate, <i>Polymeric Sensors and Actuators</i> includes a general chapter dealing with the overall physics and basic principles of sensors. Complementary chapters on their methods of fabrication as well as the processing of data are included. The actuators sections examine the fields of applications, special designs, and materials. The final chapter is dedicated to liquid crystal displays. The book concludes with four extensive indices including one special one on analytes to allow the practitioner to easily use the text.</p> <p>This comprehensive text examines the following sensor types:</p> <ul> <li>Humidity Sensors</li> <li>Biosensors</li> <li>Mechanical Sensors</li> <li>Optical Sensors</li> <li>Surface Plasmon Resonance</li> <li>Test Strips</li> <li>Microelectromechanical (MEMS) Sensors</li> <li>Piezoelectric Sensors</li> <li>Acoustic Wave Sensors</li> <li>Electronic Nose</li> <li>Switchable Polymers</li> </ul>
<p>Preface v</p> <p><b>1. Sensor Types and Polymers 1</b><br />1.1 Sensor Types 2<br />1.2 Basic Polymer Types 19</p> <p><b>2. Methods of Fabrication 41</b><br />2.1 Patterning Techniques 41<br />2.2 Coating Techniques 41<br />2 3 Electrospinning 46<br />2.4 Molecular Imprinted Polymers 48<br />2.5 Sensor Arrays 50<br />2.6 Ink J et Fabrication 57</p> <p><b>3. Processing of Data 67</b><br />3.1 Evaluation of Multivariate Data 67<br />3.2 Response of a Sensor Array 68<br />3.3 Least Square Method 69<br />3.4 Linear Solvation Energy Relationships 70<br />3.5 Euclidean Fuzzy Similarity 71<br />3.6 Adaptive Resonance Theory 71<br />3.7 Modelling of Sensors 72<br />3.8 Bioinspired Models for Pattern Recognition 74</p> <p><b>4. Humidity Sensors 77</b><br />4.1 Calibration 78<br />4.2 Capacitive Humidity Sensors 78<br />4.3 Resistance Type Humidity Sensors 81<br />4.4 Bragg Grating Sensor 87<br />4.5 Fiber Optic Sensor 92<br />4.6 Surface Acoustic Wave Based Sensors 92<br />4.7 Microwave Oven Humidity Sensors 96</p> <p><b>5. Biosensors 101</b><br />5.1 Waveguide Sensors 102<br />5.2 Active Elements 104<br />5.3 Special Examples 107</p> <p><b>6. Mechanical Sensors 129</b><br />6.1 Bending Sensors 129<br />6.2 Cantilever Type Sensors 130<br />6.3 Micromechanical Oscillators 130<br />6.4 Microelectromechanical Capacitor Array 132<br />6.5 Change in Thermodynamic Properties 132<br />6.6 Dielectric Elastomer Sensors 132<br />6.7 Polymers for Mechanical Sensors 133<br />6.8 Cardiac Infarction Monitoring 135</p> <p><b>7. Optical Sensors 139</b><br />7.1 Conjugated Polymers 139<br />7.2 Amplified Fluorescent Polymers 145<br />7.3 Nanostructured Materials 160<br />7.4 Micelle-Induced Fluorescent Sensors 164<br />7.5 Fiber Sensors 164<br />7.6 Waveguides 167<br />7.7 Chiral Sensors 168<br />7.8 Molecularly Imprinted Polymers 168<br />7.9 Glucose Sensors 172<br />7.10 Hydrophilic Polymer Matrices 180<br />7.11 Special Analytes 181<br />7.12 pH Sensors 207</p> <p><b>8. Surface Plasmon Resonance 225</b><br />8.1 Application as Sensors 225<br />8.2 Basic Principle 226<br />8.3 Theory 226<br />8.4 Waveguide Surface Plasmon Resonance 229<br />8.5 Nanoparticles 230<br />8.6 Surface Plasmon Resonance with Fibers 234<br />8.7 Combinations with other Principles 235<br />8.8 Examples for Use 235</p> <p><b>9. Test Strips 241</b><br />9.1 Cations 241<br />9.2 Anions 243<br />9.3 Organic Analytes 246<br />9.4 Immunochromatographic Tests 254<br />9.5 Bacteria 260</p> <p><b>10. Electrochemical Sensors</b><br />10.1 Basic Principles 269<br />10.2 Carbon Nanotube Field Effect Transistors 276<br />10.3 Chemical Resistors 277<br />10.4 Temperature Sensors 282<br />10.5 Smart Textiles 285<br />10.6 Molecularly Imprinted Polymers 287<br />10.7 Other Analytes 298</p> <p><b>11. Piezoelectric Sensors 317</b><br />11.1 Theoretical Aspects 317<br />11.2 Automotive Applications 318<br />11.3 Paint Sensors 319<br />11.4 Molecular Imprinted Polymers 320<br />11.5 Food Safety Applications 322<br />11.6 Gases 323<br />11.7 Tactile Sensors 325</p> <p><b>12. Acoustic Wave Sensors 331</b><br />12.1 Analytes 331</p> <p><b>13. Electronic Nose 343</b><br />13.1 Methods for Validation 343<br />13.2 Medical Applications 349<br />13.3 Fire Detectors 355<br />13.4 Pipeline Inspection 356<br />13.5 Sensing Arrays with Colloidal Particles 357<br />13.6 Nanodisk Sensor Arrays 358<br />13.7 Food Testing 360<br />13.8 Soil Volatile Fingerprints 365</p> <p><b>14. Switchable Polymers 369</b><br />14.1 Shape-memory Polymers 370<br />14.2 Chemical Switches 371<br />14.3 pH Sensitive Switches 384<br />14.4 Photo Responsive Switches 390<br />14.5 Molecular Gates 393<br />14.6 Thermofluorescence Memories 396<br />14.7 Electric and Magnetic Switches 398<br />14.8 Switchable Wettability 400<br />14.9 Multiple Responsive Switches 402<br />14.10 Environmental Uses 404</p> <p><b>15. Actuators 415</b><br />15.1 Mathematical Model 417<br />15.2 Fields of Application and Special Designs 419<br />5.3 Materials 426<br />15.4 Carbon Based Conductive Materials 447<br />15.5 Medical Applications 452<br />15.6 Optical Applications 454<br />15.7 Pumping Applications 456</p> <p><b>16. Liquid Crystal Displays 467</b><br />16.1 Basic Design 467<br />16.2 Polymers 471<br />16.3 Special Display Types 477<br />16.4 Viewing Helps 479</p> <p>References 483</p> <p>Index 487</p> <p>Acronyms 487</p> <p>Chemicals 490</p> <p>Analytes 501</p> <p>General Index 504</p>
<p><b>“</b>It is certainly a way to learn about the vast array of materials and sensing techniques possible today.”  <b>(</b><i>IEEE Electrical Insulation Magazine</i>, 1 March 2014)</p> <p> </p>
<p><b>Johannes Karl Fink</b> is a professor of macromolecular chemistry at Montanuniversität, Loeben, Austria. His industry and academic career spans more than thirty years in the fields of polymers, and his research interests include characterization, flame retardancy, thermodynamics and degradation of polymers, pyrolysis, and adhesives. Professor Fink has published several books on physical chemistry and polymer science including <i>A Concise Introduction to Additives for Thermoplastic Polymers</i> (Wiley/Scrivener) and <i>Handbook of Engineering and Specialty Thermoplastics</i> (Wiley/Scrivener).</p>
<p><b>The book exhaustively covers the various polymers that are used for sensors and actuators from the perspective of organic chemistry.</b></p> <p>The field of polymeric sensors and actuators is developing very rapidly as newly derived polymer materials are suitable for sensor technology. This book uniquely and comprehensively covers the various polymers that are used for sensors and actuators. The author has researched both scientific papers and patents to include all the recent discoveries and applications. Since many chemists may not be very familiar with the physical background as well as how sensors operate, <i>Polymeric Sensors and Actuators</i> includes a general chapter dealing with the overall physics and basic principles of sensors. Complementary chapters on their methods of fabrication as well as the processing of data are included. The actuators sections examine the fields of applications, special designs, and materials. The final chapter is dedicated to liquid crystal displays. The book concludes with four extensive indices including one special one on analytes to allow the practitioner to easily use the text.</p> <p>This comprehensive text examines the following sensor types:</p> <ul> <li>Humidity Sensors</li> <li>Biosensors</li> <li>Mechanical Sensors</li> <li>Optical Sensors</li> <li>Surface Plasmon Resonance</li> <li>Test Strips</li> <li>Microelectromechanical (MEMS) Sensors</li> <li>Piezoelectric Sensors</li> <li>Acoustic Wave Sensors</li> <li>Electronic Nose</li> <li>Switchable Polymers</li> </ul> <p> <b>Audience</b> The book has been written for industrial scientists/engineers, researchers and students in chemistry, polymer science, materials science, and electrical engineering.</p>

Diese Produkte könnten Sie auch interessieren:

Foundations of Electromagnetic Compatibility
Foundations of Electromagnetic Compatibility
von: Bogdan Adamczyk
PDF ebook
117,99 €
Human Bond Communication
Human Bond Communication
von: Sudhir Dixit, Ramjee Prasad
EPUB ebook
105,99 €
Computer Vision in Vehicle Technology
Computer Vision in Vehicle Technology
von: Antonio M. López, Atsushi Imiya, Tomas Pajdla, Jose M. Álvarez
PDF ebook
81,99 €