Journal ArticleDOI
Aluminum as anode for energy storage and conversion: a review
Qingfeng Li,Niels J. Bjerrum +1 more
TLDR
In this paper, a review of aluminum-air secondary batteries is presented, including aqueous electrolyte primary batteries, aluminum air batteries, and molten salt secondary batteries, as well as solution additive to electrolytes.About:
This article is published in Journal of Power Sources.The article was published on 2002-07-20. It has received 567 citations till now. The article focuses on the topics: Nanoarchitectures for lithium-ion batteries & Battery (electricity).read more
Citations
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Journal ArticleDOI
Li-O2 and Li-S batteries with high energy storage.
Peter G. Bruce,Stefan Freunberger,Laurence J. Hardwick,Laurence J. Hardwick,Jean-Marie Tarascon +4 more
TL;DR: The energy that can be stored in Li-air and Li-S cells is compared with Li-ion; the operation of the cells is discussed, as are the significant hurdles that will have to be overcome if such batteries are to succeed.
Journal ArticleDOI
Towards greener and more sustainable batteries for electrical energy storage
TL;DR: The notion of sustainability is introduced through discussion of the energy and environmental costs of state-of-the-art lithium-ion batteries, considering elemental abundance, toxicity, synthetic methods and scalability.
Journal ArticleDOI
An ultrafast rechargeable aluminium-ion battery
Meng-Chang Lin,Ming Gong,Bingan Lu,Yingpeng Wu,Di Yan Wang,Mingyun Guan,Michael Angell,Changxin Chen,Jiang Yang,Bing-Joe Hwang,Hongjie Dai +10 more
TL;DR: A rechargeable aluminium battery with high-rate capability that uses an aluminium metal anode and a three-dimensional graphitic-foam cathode, found to enable fast anion diffusion and intercalation, and to withstand more than 7,500 cycles without capacity decay.
Journal ArticleDOI
Quest for Nonaqueous Multivalent Secondary Batteries: Magnesium and Beyond
Journal ArticleDOI
Understanding electrochemical potentials of cathode materials in rechargeable batteries
TL;DR: In this article, the material characteristics that determine and influence the electrochemical potentials of electrodes are discussed, in particular the cathode materials that convert electricity and chemical potential through electrochemical intercalation reactions.
References
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OtherDOI
The Principles and Techniques of Electrolytic Aluminum Deposition and Dissolution in Organoaluminum Electrolytes
Journal ArticleDOI
Electrode kinetics of aluminium in chloride melts with respect to electrocrystallization
K. Schulze,H. Hoff +1 more
TL;DR: In this paper, the authors measured the exchange cd for charge transfer of Al has been measured as a function of temperature in molten electrolytes of approximate composition MCl : AlCl 3 = 48.5 : 51.5 mol-% (M = Li, Na, K, Rb, Cs) and NaCl : KCl: AlCl3 = 20 : 14 : 66 mol-%.
Journal ArticleDOI
Deposition and Dissolution of Lithium‐Aluminum Alloy and Aluminum from Chloride‐Saturated LiCl ‐ AlCl3 and NaCl ‐ AlCl3 Melts
Ronald A. Carpio,Lowell A. King +1 more
TL;DR: In this article, a lithium-aluminum alloy was formed by a deposition process on the surface of the aluminum substrate rather than by converting the aluminum into the alloy by an implantation mechanism, as is the case in other electrolytes.
Journal ArticleDOI
Chloro Complexes in Molten Salts. 8. Potentiometric and Raman Spectroscopic Study of the Systems NaCl-AlCl3, NaCl-AlCl3-Na2O, NaCl-AlCl3-SeCl4, and NaCl-AlCl3-SeCl4-Na2O at 175oC
Proceedings ArticleDOI
Aluminum-hydrogen peroxide power system for an unmanned underwater vehicle
TL;DR: Alupower Canada Limited and the Department of National Defence with CRAD funding and DGMEM engineering support are designing and constructing a fuel cell power system (FCPS) to power small unmanned vehicles (UUVs).