2012
DOI: 10.1016/j.jpowsour.2011.10.041
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Bipolar plate cell design for a lithium air battery

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Cited by 21 publications
(29 citation statements)
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“…This is particularly true when it comes to ensuring a suffi cient oxygen feed that can increase the current density output and guarantee an even and reversible deposition of the discharge products. Researchers at the Ford Motor Company have modelled a bipolar plate system based on a proton exchange membrane (PEM) fuel cell, [ 200 ] where they show that a fl ow-fi eld plate located on the cathode side can solve some of these problems, at the expense of energy density. This option has been further investigated by the company "AVL List" for an ionic-liquid-based [ 201 ] showing that electrodes a few millimeters thick and operating current densities of ca.…”
Section: Defi Ning a Laboratory Cell Prototypementioning
confidence: 99%
“…This is particularly true when it comes to ensuring a suffi cient oxygen feed that can increase the current density output and guarantee an even and reversible deposition of the discharge products. Researchers at the Ford Motor Company have modelled a bipolar plate system based on a proton exchange membrane (PEM) fuel cell, [ 200 ] where they show that a fl ow-fi eld plate located on the cathode side can solve some of these problems, at the expense of energy density. This option has been further investigated by the company "AVL List" for an ionic-liquid-based [ 201 ] showing that electrodes a few millimeters thick and operating current densities of ca.…”
Section: Defi Ning a Laboratory Cell Prototypementioning
confidence: 99%
“…Unfortunately, these challenges have barely been investigated so far [14][15]. Figure 9b shows also that the prototype discharge voltage was lower than the lab-cell, indicating a more important discharge overvoltage, which could be related to either the prototype construction (design), inefficiencies in the current extraction from the cell (electrical contacts), or inefficiency in the oxygen provision, as could be suggested by the impedance data.…”
Section: Performance Testingmentioning
confidence: 94%
“…Additionally, the current densities [28,29,34,155,156] during the first discharge (black solid symbols) and in cells which can be cycled many times (black open symbols). The red symbols indicate the currents and capacities assumed in hypothetical battery designs [15,26,27]. Diagonal lines identify the time required for discharge (Color figure online) and capacities assumed in several hypothetical designs for practical Li-O 2 batteries [15,26,27] are shown.…”
Section: History Of Li-o 2 Technologymentioning
confidence: 99%
“…The red symbols indicate the currents and capacities assumed in hypothetical battery designs [15,26,27]. Diagonal lines identify the time required for discharge (Color figure online) and capacities assumed in several hypothetical designs for practical Li-O 2 batteries [15,26,27] are shown.…”
Section: History Of Li-o 2 Technologymentioning
confidence: 99%
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