Cell design concepts for aqueous lithium-oxygen batteries: A model-based assessment

Journal of Power Sources

Volumn 297, Issue , 2015, Pages 481-491

  Grübl, Daniel ^a   Bessler, Wolfgang G ^a  

^a OFFENBURG UNIVERSITY OF APPLIED SCIENCES   (Germany)

Author keywords

Design; Li O2< inf>; Lithium air battery; Modeling; Redox flow battery

Indexed keywords

CATHODES; CONTINUUM MECHANICS; DESIGN; DIFFUSION IN GASES; ELECTRIC BATTERIES; ELECTRODES; FLOODS; FLOW BATTERIES; FLOW SEPARATION; LITHIUM; MODELS; OXYGEN; SEPARATORS;

CONTINUUM MODELING; GAS DIFFUSION ELECTRODES; LITHIUM-AIR BATTERY; LITHIUM-OXYGEN BATTERIES; MODEL-BASED OPC; OPTIMUM CONFIGURATIONS; REDOX FLOW BATTERIES; SOLID DISCHARGE;

LITHIUM BATTERIES;

EID: 84940207061     PISSN: 03787753     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.jpowsour.2015.07.058     Document Type: Article

References (37)

1. G. Girishkumar, B. McCloskey, A.C. Luntz, S. Swanson, and W. Wilcke Lithium-air battery: promise and challenges J. Phys. Chem. Lett. 1 2010 2193 2203
2. J. Christensen, P. Albertus, R.S. Sanchez-Carrera, T. Lohmann, B. Kozinsky, R. Liedtke, J. Ahmed, and A. Kojic A critical review of Li/air batteries J. Electrochem. Soc. 159 2012 R1
3. D. Capsoni, M. Bini, S. Ferrari, E. Quartarone, and P. Mustarelli Recent advances in the development of Li-air batteries J. Power Sources 220 2012 253 263
4. M. Balaish, A. Kraytsberg, and Y. Ein-Eli A critical review on lithium-air battery electrolytes Phys. Chem. Chem. Phys. 16 2014 2801
5. J.-K. Kim, W. Yang, J. Salim, C. Ma, C. Sun, J. Li, and Y. Kim Li-water battery with oxygen dissolved in water as a cathode J. Electrochem. Soc. 161 2014 A285 A289
6. L. Li, and A. Manthiram Dual-electrolyte lithium-air batteries: influence of catalyst, temperature, and solid-electrolyte conductivity on the efficiency and power density J. Mater. Chem. A 1 2013 5121
7. B. Horstmann, T. Danner, and W.G. Bessler Precipitation in aqueous lithium-oxygen batteries: a model-based analysis Energy Environ. Sci. 6 2013 1299
8. A.A. Franco Multiscale modelling and numerical simulation of rechargeable lithium ion batteries: concepts, methods and challenges RSC Adv. 3 2013 13027
9. J.P. Neidhardt, D.N. Fronczek, T. Jahnke, T. Danner, B. Horstmann, and W.G. Bessler A flexible framework for modeling multiple solid, liquid and gaseous phases in batteries and fuel cells J. Electrochem. Soc. 159 2012 A1528
10. B. Horstmann, B. Gallant, R. Mitchell, W.G. Bessler, Y. Shao-Horn, and M.Z. Bazant Rate-dependent morphology of Li2O2 growth in Li-O2 batteries J. Phys. Chem. Lett. 4 2013 4217 4222
11. A.A. Franco, and K.-H. Xue Carbon-based electrodes for lithium air batteries: scientific and technological challenges from a modeling perspective ECS J. Solid State Sci. Technol. 2 2013 M3084 M3100
12. U. Sahapatsombut, H. Cheng, and K. Scott Modelling the micro-macro homogeneous cycling behaviour of a lithium-air battery J. Power Sources 227 2013 243 253
13. S.S. Sandhu, J.P. Fellner, and G.W. Brutchen Diffusion-limited model for a lithium/air battery with an organic electrolyte J. Power Sources 164 2007 365 371
14. E.M. Ryan, K. Ferris, A. Tartakovsky, and M. Khaleel Computational modeling of transport limitations in Li-air batteries ECS Trans. 45 2013 123 136
15. X. Li, and A. Faghri Optimization of the cathode structure of lithium-air batteries based on a two-dimensional, transient, non-isothermal model J. Electrochem. Soc. 159 2012 A1747
16. Y. Wang, and S.C. Cho Analysis and multi-dimensional modeling of lithium-air batteries J. Electrochem. Soc. 162 2015 A114 A124
17. S.S. Sandhu, G.W. Brutchen, and J.P. Fellner Lithium/air cell: preliminary mathematical formulation and analysis J. Power Sources 170 2007 196 209
18. M. Mehta, G. Mixon, J. Zheng, and P. Andrei Analytical electrochemical impedance modeling of Li-air batteries under D.C. discharge J. Electrochem. Soc. 160 2013 A2033 A2045
19. P. Andrei, J.P. Zheng, M. Hendrickson, and E.J. Plichta Some possible approaches for improving the energy density of Li-air batteries J. Electrochem. Soc. 157 2010 A1287 A1295
20. T. Danner, B. Horstmann, D. Wittmaier, N. Wagner, and W.G. Bessler Reaction and transport in Ag/Ag2O gas diffusion electrodes of aqueous Li-O2 batteries: experiments and modeling J. Power Sources 264 2014 320 332
21. P. Andrei, J.P. Zheng, M. Hendrickson, and E.J. Plichta Modeling of Li-air batteries with dual electrolyte J. Electrochem. Soc. 159 2012 A770 A780
22. D. Grübl, T. Danner, V.P. Schulz, A. Latz, and W.G. Bessler Multi-methodology modeling and design of lithium-air cells with aqueous electrolyte ECS Trans. 62 2014 137 149
23. J.P. Zheng, P. Andrei, M. Hendrickson, and E.J. Plichta The theoretical energy densities of dual-electrolytes rechargeable Li-air and Li-air flow batteries J. Electrochem. Soc. 158 2011 A43 A46
24. Z.H. Wang, C.Y. Wang, and K.S. Chen Two-phase flow and transport in the air cathode of proton exchange membrane fuel cells J. Power Sources 94 2001 40 50
25. I. Moussallem, S. Pinnow, N. Wagner, and T. Turek Development of high-performance silver-based gas-diffusion electrodes for chlor-alkali electrolysis with oxygen depolarized cathodes Chem. Eng. Process. Process Intensif. 52 2012 125 131
26. T. Reddy Linden's Handbook of Batteries fourth ed. 2010 McGraw-Hill Education
27. F. Rahman, and M. Skyllas-Kazacos Vanadium redox battery: positive half-cell electrolyte studies J. Power Sources 189 2009 1212 1219
28. Ohara Corporation, Retrieved December 18, 2014, http://www.oharacorp.com/lic-gc.html.
29. M.S. Park, S.B. Ma, D.J. Lee, D. Im, S.-G. Doo, and O. Yamamoto A highly reversible lithium metal anode Sci. Rep. 4 2014
30. W.G. Bessler, S. Gewies, and M. Vogler A new framework for physically based modeling of solid oxide fuel cells Electrochim. Acta 53 2007 1782 1800
31. D.G. Goodwin, Cantera (http://code.google.com/p/cantera, 2001-2014).
32. P. Deuflhard, E. Hairer, and J. Zugck One step and extrapolation methods for differential-algebraic systems Num. Math. 51 1987 501 516
33. A.S. Woodman, E.B. Anderson, K.D. Jayne, and M.C. Kimble Development of corrosion-resistant coatings for fuel cell bipolar plates AESF SUR/FIN '99 Proceedings vol. 6 1999 21 24
34. ThyssenKrupp Materials International, Austenitischer korrosionsbeständiger Stahl, Stahlbezeichnung: X2CrNiMo17-12-2, Werkstoff-Nr: 1.4404, Datasheet.
35. W.M. Haynes, D.R. Lide, and T.J. Bruno CRC Handbook of Chemistry and Physics. A Ready-reference Book of Chemical and Physical Data: 2013-2014 94th edition 2013 CRC Press
36. Panasonic, Lithium ion batteries: individual data sheet CGR18650E, Datasheet.
37. A123 Systems, High power lithium ion ANR26650M1, Datasheet.