Angewandte Chemie Int. Edit. 55, 9898 (2016)https://ireap.umd.edu/10.1002/anie.2016035312016
Xiaogang
Gao
Xiaogang
Li
Junkair
Hu
Fudong
Han
Xiulin
Fan
Liumin
Suo
Alexander J.
Pearse
Sang Bok
Lee
Gary W.
Rubloff
et al.
Journal ArticleAdvanced Materials and NanotechnologyAluminum metal is a promising anode material for next generation rechargeable batteries owing to its abundance, potentially dendrite-free deposition, and high capacity. The rechargeable aluminum/sulfur (Al/S) battery is of great interest owing to its high energy density (1340 Wh kg−1) and low cost. However, Al/S chemistry suffers poor reversibility owing to the difficulty of oxidizing AlSx. Herein, we demonstrate the first reversible Al/S battery in ionic-liquid electrolyte with an activated carbon cloth/sulfur composite cathode. Electrochemical, spectroscopic, and microscopic results suggest that sulfur undergoes a solid-state conversion reaction in the electrolyte. Kinetics analysis identifies that the slow solid-state sulfur conversion reaction causes large voltage hysteresis and limits the energy efficiency of the system.
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