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Cited 122 time in webofscience Cited 117 time in scopus
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Lithium-Oxygen Batteries and Related Systems: Potential, Status, and Future

Authors
Kwak, Won-JinRosySharon, DanielXia, ChunKim, HunJohnson, Lee R.Bruce, Peter G.Nazar, Linda F.Sun, Yang-KookFrimer, Aryeh A.Noked, MalachiFreunberger, Stefan A.Aurbach, Doron
Issue Date
Jul-2020
Publisher
American Chemical Society
Citation
Chemical Reviews, v.120, no.14, pp 6626 - 6683
Pages
58
Indexed
SCIE
SCOPUS
Journal Title
Chemical Reviews
Volume
120
Number
14
Start Page
6626
End Page
6683
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/9694
DOI
10.1021/acs.chemrev.9b00609
ISSN
0009-2665
1520-6890
Abstract
The goal of limiting global warming to 1.5 °C requires a drastic reduction in CO2 emissions across many sectors of the world economy. Batteries are vital to this endeavor, whether used in electric vehicles, to store renewable electricity, or in aviation. Present lithium-ion technologies are preparing the public for this inevitable change, but their maximum theoretical specific capacity presents a limitation. Their high cost is another concern for commercial viability. Metal–air batteries have the highest theoretical energy density of all possible secondary battery technologies and could yield step changes in energy storage, if their practical difficulties could be overcome. The scope of this review is to provide an objective, comprehensive, and authoritative assessment of the intensive work invested in nonaqueous rechargeable metal–air batteries over the past few years, which identified the key problems and guides directions to solve them. We focus primarily on the challenges and outlook for Li–O2 cells but include Na–O2, K–O2, and Mg–O2 cells for comparison. Our review highlights the interdisciplinary nature of this field that involves a combination of materials chemistry, electrochemistry, computation, microscopy, spectroscopy, and surface science. The mechanisms of O2 reduction and evolution are considered in the light of recent findings, along with developments in positive and negative electrodes, electrolytes, electrocatalysis on surfaces and in solution, and the degradative effect of singlet oxygen, which is typically formed in Li–O2 cells.
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