2019
DOI: 10.1002/adma.201901125
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Current Status and Future Prospects of Metal–Sulfur Batteries

Abstract: that makes use of intercalation materials as the electrodes (Figure 1), applications involving electric vehicles and smart grids may require rechargeable batteries with new battery chemistries that can generate even higher energy densities for longer driving ranges and higher energy-storage capabilities. [6][7][8] Additionally, the lithiated transition-metal oxides used in commercial lithium-ion battery cathodes tend to be expensive, scarce, or toxic to the environment. Thus, it is desirable to explore new ele… Show more

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Cited by 497 publications
(427 citation statements)
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References 674 publications
(1,423 reference statements)
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“…[18,19,49,53] Besides enhancing the reaction kinetics, TiS 2 can also immediately adsorb any polysulfides generated from the surrounding Li 2 S, and these stabilized polysulfides can then function as catholyte to benefit the cyclability and high-rate performance of the high-loading cathode. [2,3,[7][8][9] After investigating the obvious morphological differences between the Li 2 S-E and Li 2 S-TiS 2 -E cathodes, we applied different electrochemical analytical tools to explore the activation and cycling performance of the cells (Figure 3). The cycled Li 2 S-E control cathode displays unreacted bulk Li 2 S covered by Adv.…”
Section: Resultsmentioning
confidence: 99%
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“…[18,19,49,53] Besides enhancing the reaction kinetics, TiS 2 can also immediately adsorb any polysulfides generated from the surrounding Li 2 S, and these stabilized polysulfides can then function as catholyte to benefit the cyclability and high-rate performance of the high-loading cathode. [2,3,[7][8][9] After investigating the obvious morphological differences between the Li 2 S-E and Li 2 S-TiS 2 -E cathodes, we applied different electrochemical analytical tools to explore the activation and cycling performance of the cells (Figure 3). The cycled Li 2 S-E control cathode displays unreacted bulk Li 2 S covered by Adv.…”
Section: Resultsmentioning
confidence: 99%
“…[22,49] The high impedance brought about by the Li 2 S-E composite causes an obvious diffusion impedance at the low frequency region, [22,45,56] possibly due to the low conductivity of the Li 2 S coating layer formed on the current collector. [2,7,20,30] TiS 2 ameliorates these problems due to Adv. [22,52,53,56] In Figure 3c and Figure S8 (Supporting Information), the cycled Li 2 S-E cathode displays increased resistance from 300 to Adv.…”
Section: Resultsmentioning
confidence: 99%
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