Impedance Spectroscopy: Advanced Applications: Battery Research, Bioimpedance, System Design
203
Impedance Spectroscopy: Advanced Applications: Battery Research, Bioimpedance, System Design
203eBook
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Overview
Impedance Spectroscopy is a powerful measurement method used in many application fields such as electrochemistry, material science, biology and medicine, semiconductor industry and sensors.
Using the complex impedance at various frequencies increases the informational basis that can be gained during a measurement. It helps to separate different effects that contribute to a measurement and, together with advanced mathematical methods, non-accessible quantities can be calculated.
This book covers new advances in the field of impedance spectroscopy including fundamentals, methods and applications. It releases scientific contributions from the International Workshop on Impedance Spectroscopy (IWIS) as extended chapters including detailed information about recent scientific research results.
The book includes typically subsections on:
- Fundamental of Impedance Spectroscopy
- Bio impedance Techniques and Applications
- Impedance Spectroscopy for Energy Storage Systems
- Sensors Based on Impedance Spectroscopy
- Measurement systems
- Excitation Signals
- Modeling
- Parameter extraction
Product Details
| ISBN-13: | 9783110557169 |
|---|---|
| Publisher: | De Gruyter |
| Publication date: | 12/17/2018 |
| Sold by: | Barnes & Noble |
| Format: | eBook |
| Pages: | 203 |
| File size: | 34 MB |
| Note: | This product may take a few minutes to download. |
| Age Range: | 18 Years |
About the Author
Table of Contents
Preface v
List of Contributing Authors xiii
Impedancg spectroscopy advances and future trends: A comprehensive review Olfa Kanoun 1
1 Introduction 1
2 Theoretical background 2
3 Extraction of information from impedance spectra 3
4 Impedance spectroscopy in measurements and sensor solutions 4
5 Material characterization 5
6 Battery characterization and diagnostics 7
7 Biomedical applications and food characterization 9
8 Cable fault detection and localization 11
9 Conductive, capacitive and inductive sensors 12
10 Biosensors 15
11 Future trends of impedance spectroscopy 16
11.1 Embedded and miniaturized solutions 16
11.2 Fast impedance spectroscopy and tomography 17
11.3 Impedimetric sensors 17
Bibliography 17
Part I Electrochemical and physical phenomena
Study of the humidity effect on the electrical impedance of MWCNT epoxy nanocomposites Abdulkadir Sanli Abderrahmane Benchirouf Christian Müller Olfa Kanoun 25
1 Introduction 25
2 Experimental procedures 26
2.1 Measurement setup for humidity investigations 26
3 Results and discussion 27
3.1 Effect of humidity on the impedance response 27
3.2 Effect of the encapsulation on the impedance response 30
4 Conclusions and outlook 31
Bibliography 31
Temperature influence on impedance of premium summer diesel fuel measured with the use of impedance spectroscopy Lukasz Macioszek Ryszard Rybski 33
1 Introduction 33
2 Material and methods 35
2.1 Diesel fuel samples 35
2.2 Electrodes 36
2.3 Impedance spectroscopy 36
3 Results and discussion 37
4 Conclusion 40
Bibliography 40
A study of the effect of short-term relaxation on the ESS test technique for EV battery cells Anup Barai Andrew McGorden Paul Jennings 43
1 Introduction 43
2 Experimental methods 44
3 Results 45
4 Conclusion 47
Bibliography 47
Humidity sensitivity investigation of reduced grapheme oxide by impedance spectroscopy Ammar Al-Hamry Renato Veiga de Torres Christian Müller Olfa Kanoun 49
1 Introduction 49
2 Experimental procedures 50
3 Results and discussion 50
4 Summary and conclusion 52
Bibliography 52
Impedance study of Ni-Cr alloy in contact with biologic and organic solution using constant phase element Noureddine Leguedani My Mustapha Hafid Siham Yazami el Idrissi Yousra kessad 53
1 Introduction 53
2 Electrochemical characterization 54
2.1 Impedance spectroscopy measurements 54
2.2 Experimental results 55
2.3 Modeling the impedance data 57
3 Simulation criterion and discussion 59
4 Conclusion 60
Bibliography 61
Part II Measurement systems
Influence of the settling behavior on the measurement uncertainty of EIS and how to decrease the measurement duration Thorsten Baumhöfer Susanne Rothgang Dirk Uwe Sauer 65
1 Introduction 65
2 Measurement uncertainty 66
3 Settling influence 66
4 Reduction of measurement duration 68
5 Conclusion 69
Bibliography 70
Mixed-level simulation tool for design optimization of electrical impedance spectroscopy systems Achraf Lamlih Vincent Kerzérho Serge Bernard Fabien Soulier Mariane Comte Michel Renovell Tristan Rouyer Sylvain Bonhommeau 71
1 Introduction 71
2 Bluefin tuna physiological parameter monitoring 73
2.1 System specifications related to the targeted application 73
2.2 IC architecture definition 74
2.3 Mixed-level simulation of the architecture 75
3 Conclusion 79
Bibliography 79
A highly scalable FPGA implementation for cross-correlation with up-sampling support René Schmidt Stephan Blokzyl Wolfram Hardt 81
1 Introduction 81
2 Related work 83
3 Reference design 85
4 Novel acceleration architecture 87
5 Results 88
6 Conclusion and future work 90
Bibliography 90
Interface circuit for oil quality assessment considering dielectric losses and stray capacitances Ahmed Fendri Racem Jribi Olfa Kanoun Hamadi Ghariani 93
1 Introduction 93
2 Measurement circuit 96
2.1 Active rectifier 96
2.2 Low-pass filter 97
2.3 Differential amplifier 97
3 Simulation results 98
4 Experimental results 102
5 Conclusion 103
Bibliography 103
Part III Sensors
Modeling for improved performance of non-contacting capacitive sensors for detecting aqueous solutions Christian Weber Markus Tahedl Olfa Kanoun 107
1 Introduction 107
2 Extraction of the overall resistance by non-linear fitting 110
2.1 Evaluation of the proposed modifications 113
3 Extraction of the overall resistance by linear fitting 114
4 Experimental investigations 116
4.1 Extraction by non-linear fitting 118
4.2 Extraction by linear fitting 120
4.3 Comparison of the two fitting methods 121
5 Conclusion 122
Bibliography 122
Eddy current corrosion measurement of steel Olev Märtens Raul Land Mart Min Marek Rist Marju Ferenets Andres Käsper 125
1 Introduction 125
2 Research performed 126
2.1 Measurement setup with air-core coil 126
2.2 Experiments with initial specimen 127
2.3 Experiments with specimens no, 1 and 2 128
3 Application to estimate the rust area 129
4 Conclusion and future work 131
Bibliography 133
First measurements with a radiation hard relative humidity sensor for the ATLAS Experiment Ingo Tobehn-Steinhäuser Susanne Kersten Jaqueline Stauffenberg Heike Wünscher Christian Zeitnltz Thomas Ortlepp 135
1 Introduction 135
2 Experimental setup 136
2.1 The ATLAS Experiment 136
2.2 Design of the radiation hard humidity sensor 138
2.3 Measurements 140
3 Summary 142
Bibliography 142
CNT-enhanced carbon electrode for nitrite detection and water analysis Frank Wendler Paul Aurosmit Olfa Kanoun 143
1 Introduction 143
2 Experimental 144
2.1 Solution preparation 144
2.2 Preparation of electrodes 144
2.3 Instrumentation and experimental setup 145
2.4 Instrument settings 145
3 Results and discussion 145
4 Conclusion 148
Bibliography 148
Part IV Bioimpedance measurements and methods
Energy-efficient pulses for deep brain stimulation Rauno Gordon Mart Min Raul Land 153
1 Introduction 153
2 Objectives 154
3 Methods 154
4 Results 157
5 Conclusion 158
Bibliography 160
How many frequencies to use in electrical bioimpedance measurements Jaan Ojarand Raul Land Mart Min Marek Rist 161
1 Introduction 161
2 Methodology 163
3 Results 166
4 Conclusion 167
Bibliography 168
A method of intra-ventricular bioimpedance spectrostopy to estimate the dynamic volume of right ventricle Andres Kink Marek Rist Raul Land Hip Kõiv Mart Min 169
1 Introduction 169
2 Methods and general principles of design 171
3 Measurement setup 172
4 Results 173
5 Discussion 175
Bibliography 176
Meat quality monitoring by classification based on impedance spectra Mahdi Guermazi Olfa Kanoun Nabil Derbel 177
1 Introduction 177
2 Methodology 179
2.1 Feature selection 179
2.2 Classification method 181
3 Results and discussion 183
3.1 PCA computing 183
3.2 Zero-order Sugeno model 184
4 Conclusion 186
Bibliography 186