New secondary batteries utilizing electronically conductive polypyrrole cathode
Abstract
To gain a better understanding of the dynamic behavior in electronically conducting polypyrroles and to provide guidance toward designs of new secondary batteries based on these polymers, two mathematical models are developed; one for the potentiostatically controlled switching behavior of polypyrrole film, and one for the galvanostatically controlled charge/discharge behavior of lithium/polypyrrole secondary battery cell. The first model is used to predict the profiles of electrolyte concentrations, charge states, and electrochemical potentials within the thin polypyrrole film during switching process as functions of applied potential and position. Thus, the detailed mechanisms of charge transport and electrochemical reaction can be understood. Sensitivity analysis is performed for independent parameters, describing the physical and electrochemical characteristic of polypyrrole film, to verify their influences on the model performance. The values of independent parameters are estimated by comparing model predictions with experimental data obtained from identical conditions. The second model is used to predict the profiles of electrolyte concentrations, charge state, and electrochemical potentials within the battery system during charge and discharge processes as functions of time and position. Energy and power densities are estimated from model predictions and compared with existing battery systems. The independent design criteria on the charge and discharge performance of the cell are provided by studying the effects of design parameters.
- Publication:
-
In Colorado State Univ
- Pub Date:
- May 1991
- Bibcode:
- 1991ecpc.book.....Y
- Keywords:
-
- Cathodes;
- Charge Transfer;
- Design Analysis;
- Dynamic Characteristics;
- Electric Batteries;
- Mathematical Models;
- Pyrroles;
- Storage Batteries;
- Charged Particles;
- Electrolytes;
- Flux Density;
- Switching;
- Thin Films;
- Time Functions;
- Electronics and Electrical Engineering