METHOD OF MANUFACTURING HIGH PERMITTIVITY LOW LEAKAGE CAPACITOR AND ENERGY STORING DEVICE
First Claim
1. A method for the creation of an energy storage device that is comprised of a layered dielectric on a substrate, said method comprising:
- creating a dielectric material layer in contact between two conductive surfaces parallel to each other;
exposing the dielectric material layer to at least one permittivity enhancing treatment selected from the group consisting of;
immersion of a portion of the dielectric material layer to be treated with the permittivity enhancing treatment in an electric field;
immersion of the portion of the dielectric material layer to be treated with the permittivity enhancing treatment in a magnetic field, andintroducing a reducing agent into the portion of the dielectric material layer to be treated with the permittivity enhancing treatment; and
solidifying the dielectric material layer after or during exposure to the at least one permittivity enhancing treatment.
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Accused Products
Abstract
A method is provided for making a high permittivity dielectric material for use in capacitors. Several high permittivity materials in an organic nonconductive media with enhanced properties and methods for making the same are disclosed. A general method for the formation of thin films of some particular dielectric material is disclosed, wherein organic polymers are utilized to produce low conductivity dielectric coatings. Additionally, a method whereby the formation of certain transition metal salts as salt or oxide matrices is demonstrated at low temperatures utilizing mild reducing agents. Further, a circuit structure and associated method of operation for the recovery and regeneration of the leakage current from the long-term storage capacitors is provided in order to enhance the manufacturing yield and utility performance of such devices.
14 Citations
11 Claims
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1. A method for the creation of an energy storage device that is comprised of a layered dielectric on a substrate, said method comprising:
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creating a dielectric material layer in contact between two conductive surfaces parallel to each other; exposing the dielectric material layer to at least one permittivity enhancing treatment selected from the group consisting of; immersion of a portion of the dielectric material layer to be treated with the permittivity enhancing treatment in an electric field; immersion of the portion of the dielectric material layer to be treated with the permittivity enhancing treatment in a magnetic field, and introducing a reducing agent into the portion of the dielectric material layer to be treated with the permittivity enhancing treatment; and solidifying the dielectric material layer after or during exposure to the at least one permittivity enhancing treatment. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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Specification