Nonaqueous liquid electrolytes for lithium-based rechargeable batteries.
@article{Xu2004NonaqueousLE,
title={Nonaqueous liquid electrolytes for lithium-based rechargeable batteries.},
author={Kang Xu},
journal={Chemical reviews},
year={2004},
volume={104 10},
pages={
4303-417
}
}2.1. Solvents 4307 2.1.1. Propylene Carbonate (PC) 4308 2.1.2. Ethers 4308 2.1.3. Ethylene Carbonate (EC) 4309 2.1.4. Linear Dialkyl Carbonates 4310 2.2. Lithium Salts 4310 2.2.1. Lithium Perchlorate (LiClO4) 4311 2.2.2. Lithium Hexafluoroarsenate (LiAsF6) 4312 2.2.3. Lithium Tetrafluoroborate (LiBF4) 4312 2.2.4. Lithium Trifluoromethanesulfonate (LiTf) 4312 2.2.5. Lithium Bis(trifluoromethanesulfonyl)imide (LiIm) and Its Derivatives 4313
Figures and Tables from this paper
figure 1 
table 1 
table 2 
figure 2 
figure 3 
table 3 
figure 4 
table 4 
figure 5 
table 5 
figure 6 
table 6 
figure 7 
table 7 
figure 8 
table 8 
figure 9 
table 9 
figure 10 
table 10 
figure 11 
table 11 
figure 12 
table 12 
figure 13 
table 13 
figure 14 
table 14 
figure 15 
figure 16 
figure 17 
figure 18 
figure 19 
figure 20 
figure 21 
figure 22 
figure 23 
figure 24 
figure 25 
figure 26 
figure 27 
figure 28 
figure 29 
figure 30 
figure 31 
figure 32 
figure 33 
figure 34 
figure 35 
figure 36 
figure 37 
figure 38 
figure 39 
figure 40 
figure 41 
figure 42 
figure 43 
figure 44 
figure 45 
figure 46 
figure 47 
figure 48 
figure 49 
figure 50 
figure 51 
figure 52 
figure 53 
figure 54 
figure 55 
figure 56 
figure 57 
figure 58 
figure 59 
figure 60 
figure 61 
figure 62 
figure 63 
figure 64 
figure 65 
figure 66 
figure 67 
figure 68 
figure 69 
figure 70 
figure 71 
figure 72 
figure 73 
figure 74 
figure 75 
figure 76 
figure 77 
figure 78 
figure 79 
figure 80
4,634 Citations
A solid lithium electrolyte via addition of lithium isopropoxide to a metal-organic framework with open metal sites.
- Materials ScienceJournal of the American Chemical Society
- 2011
The results from variable-temperature measurements reveal an activation energy of just 0.15 eV, while single-particle data suggest that intraparticle transport dominates conduction, and the new solid lithium electrolyte is introduced.
A stable fluorinated and alkylated lithium malonatoborate salt for lithium ion battery application.
- Materials Science, ChemistryChemical communications
- 2015
A new fluorinated and alkylated lithium malonatoborate salt, lithium bis(2-methyl-2-fluoromalonato)borate (LiBMFMB), has been synthesized for lithium ion battery application and exhibits good cycling stability and rate capability.
Phosphorus derivatives as electrolyte additives for lithium-ion battery: The removal of O 2 generated from lithium-rich layered oxide cathode
- Materials Science, Chemistry
- 2013
Fluorinated Alkoxide-Based Magnesium-Ion Battery Electrolytes that Demonstrate Li-Ion-Battery-Like High Anodic Stability and Solution Conductivity.
- Materials Science, ChemistryACS applied materials & interfaces
- 2016
Based on DFT predictions, a series of highly soluble fluorinated alkoxide-based electrolytes were prepared, examined electrochemically, and reversibly cycled, and exhibited high anodic stability, 3.2 V vs Mg(2+/0), and a record 3.5 mS/cm solution conductivity.
A new ether-based electrolyte for dendrite-free lithium-metal based rechargeable batteries
- Chemistry, Materials ScienceScientific reports
- 2016
A new ether-based electrolyte to match lithium metal electrode is prepared by introducing 1, 4-dioxane as co-solvent into lithium bis(fluorosulfonyl)imide/1,2-dimethoxyethane solution, which presents stable Li cycling with dendrite-free Li deposition even at relatively high current rate.
Triphenyl phosphite as an electrolyte additive to improve the cyclic stability of lithium-rich layered oxide cathode for lithium-ion batteries
- Materials Science
- 2016
Electrochemical performance of novel electrolyte solutions based on organoboron magnesium salts
- Chemistry, Materials Science
- 2012
Li/LiFePO4 battery performance with a guanidinium-based ionic liquid as the electrolyte
- Materials Science
- 2011
A new guanidinium-based ionic liquid (IL) was investigated as a novel electrolyte for a lithium rechargeable battery. The viscosity, conductivity, lithium redox behavior, and charge-discharge…
1,3,2-Dioxathiolane-2,2-dioxide as film-forming agent for propylene carbonate based electrolytes for lithium-ion batteries
- Materials Science, Chemistry
- 2014
Investigation of Lithium Tetrafluorooxalatophosphate as a Lithium-Ion Battery Electrolyte
- Materials Science, Chemistry
- 2009
A lithium tetrafluorooxalatophosphate [LiPF 4 (C 2 O 4 )] salt, was prepared and its properties as a lithium-ion battery electrolyte were investigated. The conductivity, electrochemical stability,…
References
SHOWING 1-10 OF 30 REFERENCES
Fluoroethylene carbonate electrolyte and its use in lithium ion batteries with graphite anodes
- Chemistry, Materials Science
- 1999
Butyrolactone derivatives as electrolyte additives for lithium-ion batteries with graphite anodes
- Materials Science, Chemistry
- 2003
Nonaqueous electrolytes for wide-temperature-range operation of Li-ion cells
- Materials Science
- 2003
High voltage, rechargeable lithium batteries using newly-developed carbon for negative electrode material
- Materials Science
- 1993
New sealed rechargeable batteries and supercapacitors
- Engineering, Environmental Science
- 1993
This conference was divided into the following sections: supercapacitors; nickel-metal hydride batteries; lithium polymer batteries; lithium/carbon batteries; cathode materials; and lithium…
Effect of propylene carbonate on the low temperature performance of Li-ion cells
- Materials Science
- 2002