Veith, G. Spectroscopic characterization of solid discharge products in Li-air cells with aprotic carbonate electrolytes.
Reactions in the rechargeable lithium—O2 battery with alkyl carbonate electrolytes. The lithium—oxygen battery with ether-based electrolytes. McCloskey, B. Solvents' critical role in nonaqueous lithium—oxygen battery electrochemistry. Investigation of the O2 electrochemistry in a polymer electrolyte solid-state cell. Peng, Z. JPO patent Catalyst loaded onto carbon for rechargeable nonaqueous metal—air battery. Cheng, H. Carbon-supported manganese oxide nanocatalysts for rechargeable lithium—air batteries.
Giordani, V. H2O2 decomposition reaction as selecting tool for catalysts in Li—O2 cells. Sawyer, D. Electrochemistry of oxygen and superoxide ion in dimethylsulfoxide at platinum, gold and mercury electrodes. Kumar, B. A solid-state, rechargeable, long cycle life lithium-air battery. Wang, Y. A lithium—air battery with a potential to continuously reduce O2 from air for delivering energy. He, P. A Li-air fuel cell with recycle aqueous electrolyte for improved stability.
The effect of alkalinity and temperature on the performance of lithium—air fuel cell with hybrid electrolytes. A lithium—air fuel cell using copper to catalyze oxygen-reduction based on copper-corrosion mechanism. Suntivich, J. Design principles for oxygen-reduction activity on perovskite oxide catalysts for fuel cells and metal—air batteries. Nature Chem. Cheon, S-E. Rechargeable lithium sulfur battery. Choi, Y-J. Alloy Compd. Marston, J. Formation of lithium polysulfides in aprotic media.
Yamin, H. Power Sources 9 , — Ryu, H. Investigation of discharge reaction mechanism of lithium liquid electrolyte sulfur battery. Lithium sulfur battery — oxidation reduction-mechanisms of polysulphides in THF solutions. Degott, P. A novel class of organosulfur electrodes for energy storage. Liu, M. Kiya, Y. Xu, G. PVC disulfide as cathode materials for secondary lithium batteries. Chinese J. Rauh, R. The electrochemical behavior of polysulfides in tetrahydrofuran. Power Sources 14 , — Rechargeable lithium—sulfur battery.
Power Sources 26 , — Tobishima, S-I. Study on the reduction species of sulfur by alkali metals in nonaqueous solvents. Acta 42 , — Chu, M-Y. Liquid electrolyte lithium—sulfur batteries. Shin, J. Characterization of N-methyl-N-butylpyrrolidinium bis trifluoromethanesulfonyl imide-LiTFSI-tetra ethylene glycol dimethyl ether mixtures as a Li metal cell electrolyte. Choi, J-W. Acta 52 , — Marmorstein, D. Power Sources 89 , — Sulfur—carbon nano-composite as cathode for rechargeable lithium battery based on gel electrolyte.
Hayashi, A. Yang, Y. Nano Lett. Han, S-C. Zheng, W. Novel nanosized adsorbing sulfur composite cathode materials for the advanced secondary lithium batteries. Acta 51 , — Niu, J. An approach to carbon nanotubes with high surface area and large pore volume. Yuan, L. Song, M-S. Choi, Y. Scripta T , 62—65 A novel conductive polymer—sulfur composite cathode material for rechargeable lithium batteries. Yu, X-g. Lithium storage in conductive sulfur-containing polymers.
Sulphur-polypyrrole composite positive electrode materials for rechargeable lithium batteries. Lai, C. Liang, C. Jayaprakash, N. Porous hollow carbon sulfur composites for high-power lithium—sulfur batteries. Li, S. Cao, Y. Sandwich-type functionalized graphene sheet—sulfur nanocomposite for rechargeable lithium batteries. Wu, F. Qiu, L. Acta 55 , — Demir-Cakan, R. Cathode composites for Li—S batteries via the use of oxygenated porous architectures. Mirzaeian, M. Preparation of controlled porosity carbon aerogels for energy storage in rechargeable lithium oxygen batteries.
Acta 54 , — Zhang, G. Albertus, P. Mikhaylic, Y. Electrolytes for lithium sulfur cells. Imanishi, N. Lithium anode for lithium—air secondary batteries. Solid State 14 , A45—A48 Debart, A. Reactivity of transition metal Co, Ni, Cu sulphides versus lithium: The intriguing case of the copper sulphide. Solid State Sci. Download references. The authors wish to express their thanks to S. Visco, M. Armand and R. Peter G. Bruce, Stefan A.
You can also search for this author in PubMed Google Scholar. Correspondence to Peter G. Reprints and Permissions. Li—O 2 and Li—S batteries with high energy storage. Nature Mater 11, 19—29 Download citation. Published : 15 December Issue Date : January Anyone you share the following link with will be able to read this content:.
Sorry, a shareable link is not currently available for this article. Provided by the Springer Nature SharedIt content-sharing initiative. Nature Reviews Materials Nature Nanotechnology Nature Energy Scientific Reports Nature Advanced search. Skip to main content Thank you for visiting nature. Subjects Batteries. This article has been updated. Abstract Li-ion batteries have transformed portable electronics and will play a key role in the electrification of transport.
Access through your institution. Buy or subscribe. Rent or Buy article Get time limited or full article access on ReadCube. Figure 2: Practical specific energies for some rechargeable batteries, along with estimated driving distances and pack prices.
Figure 3: Challenges facing the non-aqueous Li—O 2 battery. Figure 5: Challenges facing the aqueous Li—O 2 battery. Figure 6: Load curve of an aqueous Li—O 2 cell. Figure 7: Challenges facing the Li—S battery. Figure 8: Cycle-life data of Li—S cell. Change history 04 January In the version of this Review originally published, in Table 1, the values in rows 2—5 of the 'Cell voltage' column appeared incorrectly; the full column should have read 3.
References 1 Nagaura, T. Google Scholar 4 Nazri, G-A. Google Scholar 5 Bruce, P. Google Scholar 14 Duduta, M. Google Scholar 20 Jeong, S. Google Scholar 30 Zhang, J-G. Google Scholar 31 Mikhaylik, Y. Google Scholar 32 Mikhaylik, Y. Google Scholar 33 Pistoia, G. Cookies help us deliver our services. By using our services, you agree to our use of cookies. Navigation menu Personal tools Create account Log in.
Namespaces Page Discussion. Views Read View source View history. This page was last edited on 23 November , at Ancast encrypted by boot1 key. Contains titleIDs of unreleased eShop demo titles? Also, some of the demos have had their title keys uploaded to the internet.
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