2021
DOI: 10.1021/acsenergylett.1c02152
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Operando UV/vis Spectroscopy Providing Insights into the Sulfur and Polysulfide Dissolution in Magnesium–Sulfur Batteries

Abstract: The magnesium–sulfur battery represents a promising post-lithium system with potentially high energy density and improved safety. However, just as all metal–sulfur systems, it is plagued with the polysulfide shuttle leading to active material loss and surface layer formation on the anode. To gain further insights, the present study aims to shed light on the dissolution characteristics of sulfur and polysulfides in glyme-based electrolytes for magnesium–sulfur batteries. Therefore, operando UV/vis spectroscopy … Show more

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Cited by 46 publications
(44 citation statements)
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“…Therefore the 369 nm peak was used to determine the amount of permeated polysulfide ions. However, unlike single-solute solutions, of which the UV-Vis absorbance is generally acknowledged to be proportional to its concentration, the composition of aqueous polysulfide solutions is complex with various polysulfide ions in dynamic equilibria with each other, and the concentration distribution of various polysulfide ions is affected by a number of factors such as concentration, pH and temperature 34 . Nevertheless, in this work, the absorption peak intensity of aqueous polysulfide solution (<10 mM Na 2 S 2 ) was found proportional to its concentration, as demonstrated in Supplementary Fig.…”
Section: Resultsmentioning
confidence: 99%
“…Therefore the 369 nm peak was used to determine the amount of permeated polysulfide ions. However, unlike single-solute solutions, of which the UV-Vis absorbance is generally acknowledged to be proportional to its concentration, the composition of aqueous polysulfide solutions is complex with various polysulfide ions in dynamic equilibria with each other, and the concentration distribution of various polysulfide ions is affected by a number of factors such as concentration, pH and temperature 34 . Nevertheless, in this work, the absorption peak intensity of aqueous polysulfide solution (<10 mM Na 2 S 2 ) was found proportional to its concentration, as demonstrated in Supplementary Fig.…”
Section: Resultsmentioning
confidence: 99%
“…Great advances have been achieved in developing high-performance LSBs with impressive values reported in the literature, such as cycle life of 2000 cycles, 209,210 high rate capability at 40C, 211,212 or high capacities of over 1200 mA h g À1 . 213,214 However, most of these studies were conducted using coin cell congurations with limited active materials and excessive amounts of electrolytes, which created a huge gap between the achievements in the lab and the expectations from the real world. To approach practical LSBs, several key parameters, namely a low E/S ratio, limited lithium anode and high sulfur loadings, should be emphasized in future studies.…”
Section: Approach To Practical Msbsmentioning
confidence: 99%
“…For Mg–S batteries, the polysulfide structures and concentration evolution in a glyme-based electrolyte were surveyed by in situ UV-vis. 214 A reaction pathway was proposed with S 8 , S 6 2− and S 4 2− being present in the electrolyte as shown in Fig. 13b.…”
Section: In Situ Characterization To Understand Sulfur Conversion Mec...mentioning
confidence: 99%
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“…This is a common problem for magnesium batteries which use Mg metal anodes, including Mg-S batteries, and therefore Mg batteries employ unique electrolytes. Additionally, the solubility of MgS x (d) in liquid electrolyte is much lower than that of Li 2 S x . ,, Solution stability of MgS x (d) , anode passivation by sulfur species, cathode reaction kinetics, and reversibility are more substantial concerns for Mg-S systems than Li-S. , The charge/discharge reaction pathways and polysulfide speciation vary between these systems. Therefore, it is crucial to understand the unique properties of MgS x for the development of highly reversible and stable Mg-S batteries.…”
mentioning
confidence: 99%