Rechargeable battery with aluminium anode containing a non aqueous electrolyte consisting of an ether as solvent and a lithium salt of an imide
First Claim
1. A rechargeable battery consisting of an aluminium anode, a graphite cathode or a Zinc, Cadmium or Nickel cathode, a non aqueous electrolyte containing a lithium salt of Bis(trifluoromethylsulfono)imide or another similar fluoroalkylsulfono imide
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Abstract
A rechargeable battery with aluminium anode containing a non aqueous electrolyte consisting of an ether as solvent and a lithium salt of an imide
It is welt known that the ionisation energy of aluminium to Al3+ is about 12 times as big as the ionisation energy of lithium to Li1+. The redox potential however does not reflect this big difference because of the high enthalpy consumed in the formation of aluminium hydroxide when it goes from the anode to the aqueous electrolyte.
Also the use of aqueous electrolyte do not allow the aluminium batteries to be rechargeable, because of the very strong bond between the aluminium and the oxygen atom in the electrolyte.
We propose now a rechargeable battery where the aluminium ion is connected to the nitrogen atom of an imide which improves the redox potential by reducing the enthalpy of formation of the aluminium-nitrogen bond in the salt contained in the electrolyte.
As there are no hydrogen ions in the electrolyte, we found that the addition of a lithium salt of an imide is necessary to improve the characteristics of the battery.
Lithium does not participate in the redox process, it just transports the electric current. The cathode may be carbon or can be made of other metals.
3 Citations
5 Claims
- 1. A rechargeable battery consisting of an aluminium anode, a graphite cathode or a Zinc, Cadmium or Nickel cathode, a non aqueous electrolyte containing a lithium salt of Bis(trifluoromethylsulfono)imide or another similar fluoroalkylsulfono imide
Specification