2017
DOI: 10.1149/2.0171801jes
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Irreversible vs Reversible Capacity Fade of Lithium-Sulfur Batteries during Cycling: The Effects of Precipitation and Shuttle

Abstract: Lithium-sulfur batteries could deliver significantly higher gravimetric energy density and lower cost than Li-ion batteries. Their mass adoption, however, depends on many factors, not least on attaining a predictive understanding of the mechanisms that determine their performance under realistic operational conditions, such as partial charge/discharge cycles. This work addresses a lack of such understanding by studying experimentally and theoretically the response to partial cycling. A lithium-sulfur model is … Show more

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Cited by 49 publications
(48 citation statements)
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“…[24,26,82,83] Moreover,n itrogen functionalities can enhancet he precipitation of solid sulfur und Li 2 S, whichi sk nownt ob eo ne of the cathode limiting factors. [84] Thus, we observed an improved active materialu tilization for the N-doped samples. The discharge voltage profiles of WWUPC/S and LUPC/S present two significant plateaus at values of 2.28 Va nd 2.08 V, respectively ( Figure 5B).…”
Section: Electrochemical Performance Of Li-s Cathodesmentioning
confidence: 55%
See 1 more Smart Citation
“…[24,26,82,83] Moreover,n itrogen functionalities can enhancet he precipitation of solid sulfur und Li 2 S, whichi sk nownt ob eo ne of the cathode limiting factors. [84] Thus, we observed an improved active materialu tilization for the N-doped samples. The discharge voltage profiles of WWUPC/S and LUPC/S present two significant plateaus at values of 2.28 Va nd 2.08 V, respectively ( Figure 5B).…”
Section: Electrochemical Performance Of Li-s Cathodesmentioning
confidence: 55%
“…It is known that polar functionalities, especially pyridinic and quaternary nitrogen species, interact with soluble lithium polysulfides (LiPS) and improve the cycle stability owing to a reduced shuttle mechanism . Moreover, nitrogen functionalities can enhance the precipitation of solid sulfur und Li 2 S, which is known to be one of the cathode limiting factors . Thus, we observed an improved active material utilization for the N‐doped samples.…”
Section: Resultsmentioning
confidence: 98%
“…This behaviorc ould be attributed to the shuttle effect, especially noteworthy at low charge current densities, as in the current example. [31] The same electrochemical characterization is depicted in Figure 5c and df or S@H 2 P-COF-BATA,s howing similarf eatures to those found for S@H 2 P-COF.T he electrochemical discharge/ charge processes show two main peaks at 2.30 and 2.05 Vf or reduction and 2.30 and 2.39 Vf or oxidation, corresponding to the S 8 conversion steps towards Li 2 S 2 /Li 2 Sa nd their corresponding reversible ones. This cell yields around1 600 mAh g À1 duringt he first discharge cycle, close to the theoretical performance of the S@H 2 P-COF battery,1 675 mAh g À1 .O nt he other hand, Figure5de xhibitst he cycling performance of the S@H 2 P-COF-BATA cathode, with ad ischarge capacity around 900 mAh g À1 and ac oulombic efficiency close to 95 %a fter 100 cycles.…”
Section: Resultsmentioning
confidence: 99%
“…Reactions (2)-(6) refer to the electrochemical reduction of liquid S8 in the cathode. Reactions (7) and (8) are the dissolution and precipitation of the two solid species, S8(s) and Li2S(s). The work assumes the same reaction mechanism as the Kumaresan model 3 .…”
Section: Mathematical and Experimental Methodsmentioning
confidence: 99%
“…A related model was developed by Neidhardt et al 4 in 2012. A series of papers were published with a similar 1D model that explored impedance 5 , charging 6 , and degradation [7][8][9] , as well as lumped models with simplified reaction mechanisms, reduced number of parameters [10][11][12] , and precipitation of lithium sulfide 13,14 .…”
Section: Mathematical Modeling Can Help Accelerate Commercializationmentioning
confidence: 99%