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Список литературы (References)
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1. |
Б. Б. Дамаскин, О. А. Петрий, Г. А. Цирлина, Электрохимия, Химия, Колос С, М, 2006 |
2. |
A. A. Таганова, “Литий-ионные источники тока для портативной электронной аппаратуры”, Современная электроника, 2 (2005), 20–25 |
3. |
M. Z. Bazant, K. Thornton, A. Ajdari, “Diffuse-charge dynamics in electrochemical systems”, Physics Review E, 70 (2004), 021506–021532 |
4. |
P. Biler, T. Nadzieja, “A Singular Problem in Electrolytes Theory”, Mathematical Methods in the Applied Sciences, 20 (1997), 767–782 |
5. |
G. G. Botte, R. E. White, “Modeling Lithium Intercalation in a Porous Carbon Electrode”, Journal of The Electrochemical Society, 148 (2001), A54–A66 |
6. |
M. Doyle, T. F. Fuller, J. Newman, “Modeling of Galvanostatic Charge and Discharge of the Lithium / Polymer / Insertion Cell”, Journal of The Electrochemical Society, 140 (1993), 1526–1533 |
7. |
I. Rubinstein, Electrodiffusion of Ions, SIAM Publishers, N.Y, 1990 |
8. |
G. Sikha, R. E. White, B. N. Popov, “A Mathematical Model for a Lithium-Ion Battery / Electrochemical Capacitor Hybrid System”, Journal of The Electrochemical Society, 152 (2005), A1682–A1693 |
9. |
K. E. Thomas, J. Newman, R. M. Darling, “Mathematical modeling of Lithium Batteries”, Advances in Lithium-Ion Batteries, Kluwer, 2002, 345–392 |
10. |
M. W. Verbrugge, Liu Ping, “Microstructural Analysis and Mathematical Modeling of Electric Double-Layer Supercapacitors”, Journal of the Electrochemical Society, 152 (2005), D79–D87 |
11. |
M. W. Verbrugge, B. J. Koch, “Electrochemistry of Intercalation Materials: Charge-Transfer Reaction and Intercalate Diffusion in Porous Electrodes”, Journal of The Electrochemical Society, 146 (1999), 833–839 |
12. |
Wang Xiaoxia, Aoki Koichi, “Transitionof current of lithium intercalation from solution to graphite”, Journal of Electroanalytical Chemistry, 604 (2007), 101–108 |