|
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[1] X.-.P. Gao , H.-.X. Yang , Multi-electron reaction materials for high energy density
batteries, Energy Environ. Sci. 3 (2010) 174–189 .
[2] C.-.X. Zu , H. Li , Thermodynamic analysis on energy densities of batteries, Energy
Environ. Sci. 4 (2011) 2614–2624 .
[3] V. Balland , M. Mateos , K. Harris , B. Limoges , The role of Al 3 + -based aqueous
electrolytes in the charge storage mechanism of MnO x cathodes, Small 17 (2020)
2101515 .
[4] J. Zheng , D.C. Bock , T. Tang , Q. Zhao , J. Yin , K.R. Tallman , G. Wheeler , X. Liu ,
Y. Deng , S. Jin , A.C. Marschilok , E.S. Takeuchi , K.J. Takeuchi , L.A. Archer , Regu-
lating electrodeposition morphology in high-capacity aluminium and zinc battery
anodes using interfacial metal–substrate bonding, Nat. Energy 6 (2021) 398–406 .
[5] G.A. Elia , K. Marquardt , K. Hoeppner , S. Fantini , R. Lin , E. Knipping , W. Peters ,
J.-.F. Drillet , S. Passerini , R. Hahn , An overview and future perspectives of aluminum
batteries, Adv. Mater. 28 (2016) 7564–7579 .
[6] G.A. Elia , K.V. Kravchyk , M.V. Kovalenko , J. Chacón , A. Holland , R.G.A. Wills , An
overview and prospective on Al and Al-ion battery technologies, J. Power Source.
481 (2021) 228870 .
[7] J. Tu , W.-.L. Song , H. Lei , Z. Yu , L.-.L. Chen , M. Wang , S. Jiao , Nonaqueous recharge-
able aluminum batteries: progresses, challenges, and perspectives, Chem. Rev. 121
(2021) 4903–4961 .
[8] M.-.C. Lin , M. Gong , B. Lu , Y. Wu , D.-.Y. Wang , M. Guan , M. Angell , C. Chen , J. Yang ,
B.-.J. Hwang , H. Dai , An ultrafast rechargeable aluminium-ion battery, Nature 520
(2015) 324–328 .
[9] H. Chen , F. Guo , Y. Liu , T. Huang , B. Zheng , N. Ananth , Z. Xu , W. Gao , C. Gao , A
defect-free principle for advanced graphene cathode of aluminum-ion battery, Adv.
Mater. 29 (2017) 1605958 .
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