Optimizing Areal Capacities through Understanding the Limitations of Lithium-Ion Electrodes

Gallagher, Kevin G.; Trask, Stephen E.; Bauer, Christoph; Woehrle, Thomas; Lux, Simon; Tschech, Matthias; Lamp, Peter; Polzin, Bryant J.; Ha, Seungbum; Long, Brandon R.; Wu, Qingliu; Lu, Wenquan; Dees, Dennis W.; Jansen, Andrew N.

doi:10.1149/2.0321602jes

articleJournal of The Electrochemical SocietyNov 10, 2015HYBRID OA

Optimizing Areal Capacities through Understanding the Limitations of Lithium-Ion Electrodes

KGKevin G. Gallagher SEStephen E. Trask CBChristoph Bauer TWThomas Woehrle SLSimon Lux

Argonne National Laboratory · BMW Group (Germany) · +1 more institution

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Abstract

Increasing the areal capacity or electrode thickness in lithium ion batteries is one possible means to increase pack level energy density while simultaneously lowering cost. The physics that limit use of high areal capacity as a function of battery power to energy ratio are poorly understood and thus most currently produced automotive lithium ion cells utilize modest loadings to ensure long life over the vehicle battery operation. Here we show electrolyte transport limits the utilization of the positive electrode at critical C-rates during discharge; whereas, a combination of electrolyte transport and polarization lead to lithium plating in the graphite electrode during charge. Experimental measurements are…

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Topics & keywords

Topics

Keywords

Electrolyte
Electrode
Graphite
Lithium (medication)
Battery (electricity)
Materials science
Ion
Current density

UN Sustainable Development Goals

Affordable and clean energy

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