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Abstract A series of non‐aqueous electrolytes were prepared by dissolving lithium bis(trifluoromethylsulfonyl)amide (LiTFSA) in triglyme and tetraglyme (G x , x = 3 and 4), respectively, with varied molar ratios. With the electrolytes the cycling performance of Li‐O 2 batteries showed a strong dependence on the molar ratios between LiTFSA and Gx. It was found that the molar ratio of 1 to 5 was critical for the cycling‐performance of Li‐O 2 batteries. High stability over 20 discharge–recharge cycles at 500 mA/g carbon and in an O 2 flow was obtained in LiTFSA‐(Gx) 5 ( x = 3 and 4). The discharge product at cathode could be directly detected and identified as the dominant crystalline product Li 2 O 2 on the 1st and 20th discharged electrodes using X‐ray diffraction technique (XRD), which indicates rechargeability and feasibility of the electrolytes LiTFSA‐(Gx) 5 ( x = 3 and 4) for Li‐O 2 batteries. At 1000 mA/g carbon their capacities could be stabilized for 10 cycles. To our knowledge, this behavior of dependence of cycling performance of Li‐O 2 batteries on the concentration of Li salts is presented here for the first time, and it may be extended to other Li salts and solvents and suggest a new route for screening cycling‐stable electrolytes for Li‐O 2 batteries.
Li et al. (Mon,) studied this question.