TH6025B - Secondary battery - Google Patents

Abstract

disclosed the secondary battery containing The organic electrolytic solution contained in the container and is provided in this solution. with an anode electrode composed of metal oxide composites. with lithium as the cathode reagent material and the cathode electrode containing carbon as the anode reacting material. provided that the anode electrode and this pole has a separator in the middle. And with this organic electrode solution containing water from 5-450 ppm, this secondary battery has an excellent effect on current efficiency, cycle characteristics, storage characteristics. and safety, it can be used effectively in various electrical and electronic equipment which uses the secondary battery of this invention. very effective in electronic devices A portable device with PTC material operating at volts of 2.6-3.5 V to drive the device. with a single secondary battery (single battery) of this invention.

Claims (7)

1. Secondary batteries containing - Containers - Organic electrolyte solution contained in such containers. The solution has a water content of 5-450 ppm-electrode, an anode containing a metal-output composite with lithium as cathode-electrode reactor material. Carbon is an anode reactive material and - a separator arranged between the anode electrodes. And the negative pole thereof By providing anode electrode and cathode electrode And the separator is in the said organic electrolyte solution Where at least one of the anode electrode and the cathode electrode Is in the form of a coating element formed on a metal electrolytic capacitor In which this coating element Contains the reaction material corresponding to the electrode and the aforementioned binder respectively. Which has made such a metal electrolysis collector From metal foil with surface roughness from 0.1 to 0.9 microns. 2. Secondary batteries as in claim 1, whereby the said blind This is dispersed in the coating composition. With the distribution coefficient of the binder from 0.5-5.0 3. Secondary batteries, as in claim 1 or 2, whereby the said Contains Styrene Butadiene Latex with butadiene content from 40-95% by weight and gel content from 75-100%. 4. Secondary battery as in claim 1, where the organic electrolyte solution is Contains at least one organic solvent. And the electrolyte that dissolves within it, where at least Will choose one such organic solvent It is obtained from a group containing ether, ketones, lactone, nitrile, amide, and schulfer compounds. Chlorinated hydrocarbons, carbonate esters, phosphoric acid nitro-esters And sulfolane compounds 5. Secondary battery as in claim 1, where the electrode positive electrode And the negative electrode thereof It was wrapped in a loop into a structure that provided the anode electrode and the cathode electrode. Opposite each other With the aforementioned separator in between Where each layer of the electrode coiled at the innermost and the outermost layer of the coiled electrode of the spool is the aforementioned loop consisting of the aforementioned negative electrode layer 6.The secondary battery, as in claim 1, also includes an FTC material safety device operating at temperatures from 80-140 * C and has a temperature sensitivity coefficient from -10 to -130. 7.Methods for driving a mobile electronic device include: The presence of a single secondary bacteria including - a container - an organic electrolyte solution contained in such a container. The solution has a water content of 5-450 ppm-electrode, an anode containing a metal-output composite with lithium as cathode-electrode reactor material. Carbon is an anode reactive material and - a separator arranged between the anode electrodes. And the negative pole thereof By providing anode electrode and cathode electrode And the separator is in the said organic electrolyte solution Where at least one of the anode electrode and the cathode electrode Is in the form of a coating element formed on a metal electrolysis Which the coating elements are Contains the reaction material corresponding to the electrode and the aforementioned binder respectively. By having made such a metal electrolysis collector From a metal foil with a surface roughness from 0.1 to 0.9 microns, the electrical connection between such a single secondary bacteria It is compatible with mobile electronic devices with IC material operating at voltages from 2.6-3.5 volts.