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J. B. Varley et al.
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Chun Xia et al.
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Birger Horstmann et al.
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Peter G. Bruce et al.
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The Lithium-Oxygen Battery with Ether-Based Electrolytes
Stefan A. Freunberger et al.
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Zhangquan Peng et al.
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V. Viswanathan et al.
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Jang-Soo Lee et al.
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