Method of forming transparent conductor pattern
First Claim
1. A method of forming a desired pattern of transparent electrical conductors on a base, comprising the steps of:
- selecting a first material oxidizable to form a transparent insulating material;
selecting a modifying material combinable with said first material to form a second material, wherein said second material is oxidizable to form a transparent electrical conductor material;
forming a layer of said modifying material on said base in a pattern conforming to said desired pattern of transparent electrical conductors;
forming a layer of said first material adjacent said layer of modifying material on said base;
diffusing said modifying material into said first material to form said second material; and
oxidzing said first and second materials to form a substantially continuous layer of oxidized material having a transparent conductor region conforming to said desired pattern and a transparent insulator region.
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Abstract
A continuous layer of transparent material is formed on a base. A desired pattern of transparent electrically conductive material is included in the layer. The regions of the layer not included in the conductor pattern are insulative. The insulative material is preferably an indium oxide. Tin is preferably used as a dopant in the indium oxide to make it electrically conductive according to the desired pattern. The electrically conductive pattern is first formed in metallic tin. The tin pattern is diffused into a layer of metallic indium. The layer is then thermally oxidized to form the electrically conductive pattern as indium-tin-oxide (ITO) in indium sesquioxide, In2 O3, an insulator.
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Citations
4 Claims
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1. A method of forming a desired pattern of transparent electrical conductors on a base, comprising the steps of:
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selecting a first material oxidizable to form a transparent insulating material; selecting a modifying material combinable with said first material to form a second material, wherein said second material is oxidizable to form a transparent electrical conductor material; forming a layer of said modifying material on said base in a pattern conforming to said desired pattern of transparent electrical conductors; forming a layer of said first material adjacent said layer of modifying material on said base; diffusing said modifying material into said first material to form said second material; and oxidzing said first and second materials to form a substantially continuous layer of oxidized material having a transparent conductor region conforming to said desired pattern and a transparent insulator region. - View Dependent Claims (2, 3, 4)
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Specification