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Impedance Spectroscopy for Characterization of Biological Matter.
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Berlin :
Logos Verlag Berlin,
2018.
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| Colección: | Wissenschaftliche Beiträge Zur Medizinelektronik Ser.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Intro; 1 Introduction; 1.1 Structure and classification of cells; 1.2 History of animal electricity; 1.3 Field exposure of cells and biological samples; 1.4 Purpose of the work; 1.5 Outline; 2 Impedance spectroscopy; 2.1 Impedance, permittivity and conductivity; 2.2 Cellular impedance recording; 2.3 Electrode configurations for EIS; 2.4 Equivalent circuit components; 2.5 Equivalent circuit models; 2.6 Simulation of a 3D cell culture; 2.7 Commercial tools for fitting; 2.8 Impedance fitting toolbox; 2.9 Chapter conclusion; 3 Applications of impedance spectroscopy.
- 3.1 Impedance response of tumor and healthy cells3.2 Liquid samples infected with bacteria; 3.3 Fruit ripening; 3.4 Cell viability; 3.5 Lactate concentration in athletes; 3.6 Chapter conclusion; 4 Impedance measurement circuits; 4.1 Wheatstone bridge; 4.2 Auto-balancing bridge method; 4.3 Frequency response analysis method; 4.4 Network analysis method; 4.5 Chapter conclusion; 5 Demonstrator of a portable impedance spectrometer; 5.1 Block diagram; 5.2 Design of the analog circuitry; 5.3 Design of the digital logic; 5.4 Frequency response measurements; 5.5 Experiments with constant known loads.
- 5.6 Experiments with yeast5.7 Chapter conclusion; 6 Miniaturized portable impedance measurement system; 6.1 Chip architecture; 6.2 Impedance calculation example; 6.3 LabVIEW Implementation; 6.4 Impedance measurements; 6.5 Phase measurements; 6.6 Biological experiments; 6.7 Chapter conclusion; 7 High frequency stimulation; 7.1 Chip architecture; 7.2 Impedance calculation; 7.3 Simulations of an RC impedance load; 7.4 DC operating point of the VCO; 7.5 Inductor S-parameters; 7.6 Oscillator measurements; 7.7 Chapter conclusion; 8 High frequency stimulation redesign.
- 8.1 Chip architecture and simulations8.2 Assembly technologies for bare die ASICs; 8.3 Test board assembly; 8.4 Oscillator frequency and amplitude; 8.5 DC operating point of the VCO; 8.6 Simulation of an ESD error; 8.7 Measurement of cell cultures; 8.8 Simulation of the microstrip line; 8.9 Chapter conclusion; 9 Conclusions and outlook; A ASIC bonding plans; Bibliography; List of Figures; List of Tables; List of Abbreviations; List of Symbols.