Info
- Utilizzare la checkbox di selezione a fianco di ciascun documento per attivare le funzionalità di stampa, invio email, download nei formati disponibili del (i) record.
Impedance spectroscopy [[electronic resource] ] : applications to electrochemical and dielectric phenomena / / Vadim F. Lvovich
| Impedance spectroscopy [[electronic resource] ] : applications to electrochemical and dielectric phenomena / / Vadim F. Lvovich |
| Autore | Lvovich Vadim F. <1967-> |
| Pubbl/distr/stampa | Hoboken, N.J., : Wiley, c2012 |
| Descrizione fisica | 1 online resource (370 p.) |
| Disciplina | 543/.4 |
| Soggetto topico |
Impedance spectroscopy
Electrochemistry |
| ISBN |
1-62198-219-X
1-280-88135-6 9786613722669 1-118-16409-1 1-118-16407-5 1-118-16410-5 |
| Classificazione | SCI013050 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Impedance Spectroscopy: Applications to Electrochemical and Dielectric Phenomena; Contents; Preface; 1. Fundamentals of electrochemical impedance spectroscopy; 1.1. Concept of complex impedance; 1.2. Complex dielectric, modulus, and impedance data representations; 1.3. Electrochemical experiment: charge and material transport; 1.4. Fundamental ambiguity of impedance spectroscopy analysis; 2. Graphical representation of impedance spectroscopy data; 2.1. Nyquist and Bode representation of complex impedance data for ideal electrical circuits; 2.2. Dielectric data representation
3. Equivalent-circuit elements and modeling of the impedance phenomenon3.1. Ideal circuit elements; 3.2. Nonideal circuit elements; 3.3. Circuit models for systems with two and more time constants; 4. Examples of ideal equivalent circuit models; 4.1. Basic R-C circuit; 4.2. Basic R|C circuit; 4.3 Randies RSOL- RCT\CDL circuit; 4.4. Debye dielectric relaxation (R1-C1)\C circuit; 5. Impedance representation of bulk-material and electrode processes; 5.1. Uncompensated impedance ZOHM; 5.2. Bulk-media impedance-RSOL, RBULK and CBUKL; 5.3. Electrochemical double-layer capacitance CDL 5.4. Electrochemical charge-transfer resistance RCT5.5. Electrochemical sorption impedance ZSORP; 5.6. Mass-transport impedance; 5.7. Mixed charge-transfer, homogeneous, and diffusion-controlled kinetics; 6. Distributed impedance models; 6.1. Distributed RBULK |CBULK - R|NT|CPEDL circuit model; 6.2. General impedance models for distributed electrode processes; 6.3. Identification of frequency ranges for conductivity and permittivity measurements; 7. Impedance analysis of complex systems; 7.1. Dielectric analysis of highly resistive composite materials with particle conduction 7.2. Dielectric analysis of ionic colloidal suspensions7.3. AC electrokinetics and dielectrophoretic spectroscopy of colloidal suspensions; 7.4. Specific adsorption and multistep heterogeneous kinetics; 7.5. Impedance kinetics studies on porous electrodes; 8. Impedance Instrumentation, testing, and data validation; 8.1. Impedance test equipment; 8.2. Single-sine impedance equipment-lock-in amplifier and frequency-response analyzer; 8.3. Multiple-sine impedance equipment; 8.4. Electrochemical cells; 8.5. Linearity, causality, stability, consistency, and error analysis of impedance measurements 8.6. Complex nonlinear least-squares regression fitting8.7. Practical approach to experimental impedance data collection and analysis; 9. Selected examples of impedance-analysis applications: electroactive polymer films; 9.1. The field of electroactive polymers; 9.2. Impedance analysis of electrochemically active polymer films; 9.3. EIS models of conducting polymer films; 9.4. The future of electroactive polymers; 10. Selected examples of EIS analysis applications: industrial colloids and lubricants; 10.1. The field of industrial colloids and lubricants 10.2. Physical and chemical properties of lubricants |
| Record Nr. | UNINA-9910141268803321 |
Lvovich Vadim F. <1967->
|
||
| Hoboken, N.J., : Wiley, c2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Impedance spectroscopy [[electronic resource] ] : applications to electrochemical and dielectric phenomena / / Vadim F. Lvovich
| Impedance spectroscopy [[electronic resource] ] : applications to electrochemical and dielectric phenomena / / Vadim F. Lvovich |
| Autore | Lvovich Vadim F. <1967-> |
| Pubbl/distr/stampa | Hoboken, N.J., : Wiley, c2012 |
| Descrizione fisica | 1 online resource (370 p.) |
| Disciplina | 543/.4 |
| Soggetto topico |
Impedance spectroscopy
Electrochemistry |
| ISBN |
1-62198-219-X
1-280-88135-6 9786613722669 1-118-16409-1 1-118-16407-5 1-118-16410-5 |
| Classificazione | SCI013050 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Impedance Spectroscopy: Applications to Electrochemical and Dielectric Phenomena; Contents; Preface; 1. Fundamentals of electrochemical impedance spectroscopy; 1.1. Concept of complex impedance; 1.2. Complex dielectric, modulus, and impedance data representations; 1.3. Electrochemical experiment: charge and material transport; 1.4. Fundamental ambiguity of impedance spectroscopy analysis; 2. Graphical representation of impedance spectroscopy data; 2.1. Nyquist and Bode representation of complex impedance data for ideal electrical circuits; 2.2. Dielectric data representation
3. Equivalent-circuit elements and modeling of the impedance phenomenon3.1. Ideal circuit elements; 3.2. Nonideal circuit elements; 3.3. Circuit models for systems with two and more time constants; 4. Examples of ideal equivalent circuit models; 4.1. Basic R-C circuit; 4.2. Basic R|C circuit; 4.3 Randies RSOL- RCT\CDL circuit; 4.4. Debye dielectric relaxation (R1-C1)\C circuit; 5. Impedance representation of bulk-material and electrode processes; 5.1. Uncompensated impedance ZOHM; 5.2. Bulk-media impedance-RSOL, RBULK and CBUKL; 5.3. Electrochemical double-layer capacitance CDL 5.4. Electrochemical charge-transfer resistance RCT5.5. Electrochemical sorption impedance ZSORP; 5.6. Mass-transport impedance; 5.7. Mixed charge-transfer, homogeneous, and diffusion-controlled kinetics; 6. Distributed impedance models; 6.1. Distributed RBULK |CBULK - R|NT|CPEDL circuit model; 6.2. General impedance models for distributed electrode processes; 6.3. Identification of frequency ranges for conductivity and permittivity measurements; 7. Impedance analysis of complex systems; 7.1. Dielectric analysis of highly resistive composite materials with particle conduction 7.2. Dielectric analysis of ionic colloidal suspensions7.3. AC electrokinetics and dielectrophoretic spectroscopy of colloidal suspensions; 7.4. Specific adsorption and multistep heterogeneous kinetics; 7.5. Impedance kinetics studies on porous electrodes; 8. Impedance Instrumentation, testing, and data validation; 8.1. Impedance test equipment; 8.2. Single-sine impedance equipment-lock-in amplifier and frequency-response analyzer; 8.3. Multiple-sine impedance equipment; 8.4. Electrochemical cells; 8.5. Linearity, causality, stability, consistency, and error analysis of impedance measurements 8.6. Complex nonlinear least-squares regression fitting8.7. Practical approach to experimental impedance data collection and analysis; 9. Selected examples of impedance-analysis applications: electroactive polymer films; 9.1. The field of electroactive polymers; 9.2. Impedance analysis of electrochemically active polymer films; 9.3. EIS models of conducting polymer films; 9.4. The future of electroactive polymers; 10. Selected examples of EIS analysis applications: industrial colloids and lubricants; 10.1. The field of industrial colloids and lubricants 10.2. Physical and chemical properties of lubricants |
| Record Nr. | UNINA-9910810255303321 |
|
Lvovich Vadim F. <1967->
|
||
| Hoboken, N.J., : Wiley, c2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||