Method of making electrically insulating metallic oxides electrically conductive
First Claim
1. A method of making an electrically insulating native oxide on a metal electrically conductive comprising:
- applying at least one selected from the group consisting of atoms and ions of aluminum, antimony, arsenic, boron, gallium, indium, phosphorus, and silicon to an electrically insulating native oxide on a body selected from the group consisting of aluminum, molybdenum, niobium, tantalum, titanium, tungsten, zirconium, and stainless steel; and
heating the body and native oxide to which the selected atoms and/or ions have been applied to a temperature and for a time effective to make the oxide, where the selected atoms and/or ions have been applied, electrically conductive and in electrical communication with the body.
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Abstract
A method of making an electrical contact to a metal on which an electrically insulating native oxide is formed includes applying atoms or ions to the native oxide, heating the metal and oxide to a temperature and for a time effective to make the oxide, where the atoms and/or ions have been applied, electrically conducting and in electrical communication with the metal. The invention may be employed to establish electrical contacts with native oxides on aluminum, molybdenum, niobium, tantalum, titanium, tungsten, and zirconium. The atoms and ions include aluminum, antimony, arsenic, boron, gallium, indium, phosphorus, and silicon. An aqueous solution of boric acid and trisodium phosphate may be applied to establish electrically conductive regions in an oxide on niobium, tantalum, titanium, and stainless steel after heat treatment. Brushing with palladium wires mechanically applies palladium atoms to tantalum oxide to establish electrical contact to the tantalum after heat treatment. The invention is useful in forming containers for electrolytic tantalum capacitors and making direct metal-to-metal electrical connections for capacitors and contacts for switches and relays.
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Citations
26 Claims
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1. A method of making an electrically insulating native oxide on a metal electrically conductive comprising:
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applying at least one selected from the group consisting of atoms and ions of aluminum, antimony, arsenic, boron, gallium, indium, phosphorus, and silicon to an electrically insulating native oxide on a body selected from the group consisting of aluminum, molybdenum, niobium, tantalum, titanium, tungsten, zirconium, and stainless steel; and heating the body and native oxide to which the selected atoms and/or ions have been applied to a temperature and for a time effective to make the oxide, where the selected atoms and/or ions have been applied, electrically conductive and in electrical communication with the body. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 11)
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- 9. A method of making an electrical contact to a tantalum body comprising brushing with a noble metal the native oxide on the tantalum body where an electrical contact is to be formed and heating the body to a make the native oxide, where the native oxide was brushed, electrically conductive and in electrical communication with the body.
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12. A method of making an electrical contact to a body selected from the group consisting of niobium, tantalum, titanium, and stainless steel comprising:
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applying a solution containing boron ions to at least one area of an electrically insulating native oxide on a body selected from the group consisting of niobium, tantalum, titanium, and stainless steel where an electrical contact to the body is to be formed; and heating the body to a temperature and for a time effective to make the native oxide, where the solution was applied, electrically conductive and in electrical communication with the body, thereby forming an electrical contact to the body extending through the native oxide. - View Dependent Claims (13, 14, 15, 16)
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17. A method of making tantalum containers for capacitors comprising:
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applying a solution including boron ions to an electrically insulating native oxide on one side of a tantalum sheet; heating the tantalum sheet to a temperature and for a time sufficient to make the native oxide, where the solution was applied, electrically conductive and in electrical communication with the tantalum sheet, thereby forming an electrical contact to the tantalum sheet extending through the native oxide; and forming the tantalum sheet into at least two generally cylindrical containers for capacitors, the electrically conductive native oxide being disposed on the inside of the containers. - View Dependent Claims (18, 19, 20, 21)
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22. A method of making an electrically insulating native oxide on a metal selected from the group consisting of niobium, tantalum, titanium, and stainless steel electrically conductive comprising:
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applying a solution containing phosphorus ions to an electrically insulating native oxide on a metal selected from the group consisting of niobium, tantalum, titanium, and stainless steel; and heating the metal and native oxide to which the solution has been applied to a temperature and for a time effective to make the native oxide, where the solution was applied, electrically conductive and in electrical communication with the metal. - View Dependent Claims (23, 24, 25)
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Specification
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- Resources
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Current AssigneeEvans Capacitor Co.
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Original AssigneeThe Evans Finding Company, Incorporated
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InventorsEvans, David A.
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Primary Examiner(s)Woo, Jay H.
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Assistant Examiner(s)DURKIN, JEREMIAH
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Application NumberUS07/584,618Time in Patent Office552 DaysField of Search148/241, 148/243, 148/245, 148/284, 148/272, 148/285, 148/276, 148/286, 148/279, 148/287, 148/281, 148/245, 148/269, 427/99, 427/419.1, 427/419.7, 204/23, 204/35.1US Class Current148/272CPC Class CodesC23C 8/10 OxidisingH01G 9/08 Housing; Encapsulation
