Inhibiting voltage suppression in lithium/fluorinated carbon batteries
First Claim
1. A lithium/fluorinated carbon battery having a reduced initial voltage suppression which comprises the incorporation in the battery cathode of fluorinated carbon which has been reacted with a compound selected from the group consisting of a Group IA metal-alkyl compound and a Group IA metal-aryl compound, which Group IA metal-aryl compound has at least 10 carbon atoms, until surface fluorine on the fluorinated carbon has been stripped and alkyl or aryl groups from the Group IA metal-alkyl compound or Group IA metal-aryl compound are substituted for surface fluorine atoms.
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Abstract
Voltage suppression is an important problem in the Li/CFx battery system. The voltage that a Li/CFx battery will deliver just after the circuit has been closed can be as low as the voltage near the end of battery life. Electronic circuitry powered by Li/CFx batteries are complicated by the need to design around this problem.
The processing of fluorinated carbon (CFx) to lower the initial voltage suppression is disclosed wherein fluorinated carbon is treated with a Group IA metal-alkyl or -aryl compound. The reaction between these compounds (e.g., n-butyl lithium) and the fluorinated carbon produces a battery grade product which undergoes reduced to almost no suppression of the initial closed circuit voltage.
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Citations
12 Claims
- 1. A lithium/fluorinated carbon battery having a reduced initial voltage suppression which comprises the incorporation in the battery cathode of fluorinated carbon which has been reacted with a compound selected from the group consisting of a Group IA metal-alkyl compound and a Group IA metal-aryl compound, which Group IA metal-aryl compound has at least 10 carbon atoms, until surface fluorine on the fluorinated carbon has been stripped and alkyl or aryl groups from the Group IA metal-alkyl compound or Group IA metal-aryl compound are substituted for surface fluorine atoms.
Specification