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化学传感器:仿真与建模 第3卷 固态设备 下 英文影印版【2025|PDF|Epub|mobi|kindle电子书版本百度云盘下载】

化学传感器:仿真与建模 第3卷 固态设备 下 英文影印版
  • (摩尔)科瑞特森科韦主编 著
  • 出版社: 哈尔滨:哈尔滨工业大学出版社
  • ISBN:7560349053
  • 出版时间:2015
  • 标注页数:517页
  • 文件大小:54MB
  • 文件页数:302页
  • 主题词:

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图书目录

6 MODELING AND SIGNAL PROCESSING STRATEGIES FOR MICROACOUSTIC CHEMICAL SENSORS&G.Fischerauer F.Thalmayr231

1 Sensing Principles of Microacoustic Chemical Sensors231

1.1 Introduction231

1.2 Microacoustic Chemical Sensors233

2 Simulation and Modeling of Acoustic Wave Propagation,Excitation,and Detection234

2.1 Analytical Solution to the Undisturbed Wave Propagation Problem235

2.2 Analytical Solution to the Wave Excitation and Detection Problem239

2.3 Finite-Element Method242

2.4 Equivalent-Circuit Models245

3 Sensor Steady-State Response248

3.1 Perturbation Approaches248

3.2 Temperature Effects253

4 Sensor Dynamics254

4.1 Linear Model255

4.2 State-Space Description262

5 Sensor Signal Processing266

5.1 Suppression of Temperature Effects266

5.2 Signal Processing Based on Linear Analytical Model268

5.3 Wiener Deconvolution269

5.4 Kalman Filter274

5.5 Discussion of State-Space-Based Signal Processing277

6 Summary281

7 Nomenclature281

References286

7 HIERARCHICAL SIMULATION OF CARBON NANOTUBE ARRAY-BASEDCHEMICAL SENSORS WITH ACOUSTIC PICKUP&V.Barkaline A.Chashynski289

1 Introduction289

2 Simulation Levels of Nanodesign291

3 Prototype of Hierarchical Simulation System for Nanodesign294

4 Continual Simulation of SAW Propagation in a Layered Medium297

5 Structure of Carbon Nanotubes and Adsoption Properties of CNT Arrays312

5.1 Atomic Structure of Single-and Multiwalled Nanotubes313

5.2 Quantum Mechanical Study of the Adsorption of Simple Gases on Carbon Nanotubes315

5.3 Molecular Mechanics of Physical Adsorption of the Individual Molecules on the CNT324

6 Simulation of a Carbon Nanotube Array-Based Chemical Sensor with an Acoustic Pickup332

6.1 Molecular Dynamics Calculation of the Elastic Moduli of Individual Carbon Nanotubes335

6.2 Molecular Dynamics Study of Distribution of Adsorbed Molecules in CNT Array Pores and Calculation of Acoustic Parameters of CNT Arrays339

6.3 SAW Phase Velocity Change Due to Molecular Adsorption on CNT Arrays in SAW-Based Chemical Sensors341

7 Conclusion343

References346

8 MICROCANTILEVER-BASED CHEMICAL SENSORS&S.Martin G.Louarn349

1 Introduction349

2 Natural Frequencies and Normal Modes of Vibration352

3 Experimental Procedure352

4 Natural Frequencies of Free Rectangular Cantilevers353

4.1 Analytical Calculations354

4.2 Simulation with Finite-Element Method356

4.3 Experimental and Modelling Results on a Rectangular Beam361

5 Natural Frequencies of V-Shaped Microcantilevers361

6 Natural Frequencies of V-Shaped Coated Cantilevers366

7 Conclusion and Prospects368

8 Acknowledgments368

References368

9 MODELING OF MICROMACHINED THERMOELECTRIC GAS SENSORS&S.Udina M.Carmona C.Calaza371

1 Principles of MTGS Modeling371

1.1 Introduction to the Theory of Heat Transfer372

1.2 Key Thermal Contributions and Parameters Involved in Sensor Operation and Modeling374

1.3 Influence of the Packaging379

2 Modeling and Simulation Methods379

2.1 Complexity Model Levels379

2.2 Analytical Models380

2.3 Finite-Element Method384

2.4 Thermal Conductivity of Gases388

3 Application to Thermoelectric Gas Sensors390

3.1 Case Study390

3.2 Analytical Model392

3.3 Static FEM396

3.4 Dynamic FEM402

3.5 Device Optimization405

Acknowledgments407

Nomenclature407

References408

10 MODELING,SIMULATION,AND INFORMATION PROCESSING FOR DEVELOPMENT OF A POLYMERIC ELECTRONIC NOSE SYSTEM&R.D.S.Yadava411

1 Introduction411

2 Sensor Array Approach414

2.1 System Characteristics416

2.2 Sensing Platform and System Design417

3 Sensor Transient Approach419

4 Design and Modeling of SAW Sensing Platform422

4.1 Generic Sensor Model422

4.2 Designing a SAW Platform for Mass Sensitivity426

4.3 Designing a SAW Platform for Multifrequeney Sensing438

5 Vapor Solvation,Diffusion,and Polymer Loading444

5.1 Solvation Model and Data Processing445

5.2 Sorption Kinetics and Transient Signal Model449

6 Data Mining and Simulation for Polymer Selection453

6.1 Case Study of Explosive Vapor Detection454

6.2 Case Study of Body-Odor Detection456

7 Optimizing Data Processing Methods462

7.1 Transient Signal Analysis462

7.2 Steady-State Sensor Array Response Analysis477

7.3 Enhancing Sensor Intelligence by Information Fusion479

7.4 Simultaneous Recognition and Quantitation481

8 Conclusion485

Acknowledgments488

References488

INDEX503

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