US2013294013A1PendingUtilityA1
Conductive polymer solution, conductive coating, condenser and process for manufacturing condenser
Est. expiryFeb 9, 2026(expired)· nominal 20-yr term from priority
C09D 201/02H01G 9/028C08L 101/12C08L 65/02H01G 11/56H01G 11/48C09D 5/24H01G 11/52H01B 1/124H01G 9/0036H01G 9/042H01G 9/025C08K 5/20C08L 65/00H01G 9/0029Y02E60/13
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Claims
Abstract
The object of the present invention is to provide a condenser that exhibits excellent conductivity of the solid electrolyte layer, and has a low ESR, a high degree of heat resistance, and a high withstand voltage. A condenser of the present invention includes an anode composed of a valve metal, a dielectric layer formed by oxidation of the surface of the anode, and a solid electrolyte layer formed on the surface of the dielectric layer, wherein the solid electrolyte layer contains a π-conjugated conductive polymer, a polyanion, and an amide compound.
Claims
exact text as granted — not AI-modified1 . A condenser, comprising an anode composed of a valve metal, a dielectric layer formed by oxidation of a surface of said anode, and a solid electrolyte layer formed on a surface of said dielectric layer, wherein said solid electrolyte layer comprises a π-conjugated conductive polymer, a polyanion, a conductivity improver, and a silane coupling agent, and
wherein said solid electrolyte layer is provided from a conductive polymer solution, and said conductive polymer solution comprises an alkaline compound.
2 . The condenser according to claim 1 , wherein said conductivity improver is one or more compounds selected from the group consisting of nitrogen-containing aromatic cyclic compounds, compounds containing two or more hydroxyl groups, compounds containing two or more carboxyl groups, compounds containing one or more hydroxyl groups and one or more carboxyl groups, compounds containing an amide group, compounds containing an imide group, lactam compounds, and compounds containing a glycidyl group.
3 . A process for manufacturing a condenser of claim 1 , comprising: adhering a conductive polymer solution comprising a π-conjugated conductive polymer, a polyanion, a conductivity improver, an alkaline compound, a silane coupling agent and a solvent to a surface of a dielectric layer formed by oxidizing a surface of an anode composed of a valve metal, and
drying said conductive polymer solution adhered to said surface of said dielectric layer.
4 . A conductive polymer solution comprising a π-conjugated conductive polymer, a polyanion, a conductivity improver selected from the group consisting of nitrogen-containing aromatic cyclic compounds, compounds containing two or more carboxyl groups, compounds containing one or more hydroxyl groups and one or more carboxyl groups, compounds containing an imide group, and compounds containing a glycidyl group, an alkaline compound and a solvent.
5 . The conductive polymer solution according to claim 4 , wherein said alkaline compound is a nitrogen-containing aromatic cyclic compound.
6 . The conductive polymer solution according to claim 4 , wherein said solvent is a mixed solvent containing water and an organic solvent having a boiling point of 100° C. or higher at a pressure of 0.1 MPa.
7 . A conductive coating, formed by applying and drying a conductive polymer solution of claim 4 .
8 . A condenser, comprising an anode composed of a valve metal, a dielectric layer formed by oxidation of a surface of said anode, and a solid electrolyte layer formed on a surface of said dielectric layer, wherein said solid electrolyte layer is formed from a conductive coating of claim 7 .
9 . A process for manufacturing a condenser, comprising:
forming a solid electrolyte layer by applying a conductive polymer solution of claim 4 to a surface of a dielectric layer formed by oxidizing a surface of an anode composed of a valve metal.Cited by (0)
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