MANUFACTURE ELECTRICALLY CONDUCTIVE MATERIALS

Brand Owner (click to sort) Address Description
NAECO NAECO 100 NAECO Way Peachtree City GA 30269 Manufacture of electrically conductive materials to order and/or specification of others;
NAECO North American Electronics Components 100 Field Turf Drive Peachtree City GA 30269 Manufacture of electrically conductive materials to order and/or specification of others;
NAECO NAECO 100 NAECO Way Peachtree City GA 30269 Manufacture of electrically conductive materials to order and/or specification of others;The mark was first used anywhere in a different form other than that sought to be registered at least as early as 01/31/2000;The mark was first used in commerce in a different form other than that sought to be registered at least as early as 01/31/2000;
NAECO MATERIALS TECHNOLOGY SOLUTIONS NAECO 100 NAECO Way Peachtree City GA 30269 Manufacture of electrically conductive materials and precision machined parts to order and/or specification of others;The mark consists of a stylized design consisting of an interlinked circle and hexagon within an outlined square with rounded corners with the background dark at the upper portion of the square while lightening towards the lower left quadrant of the square paired with the company name ''NAECO'' to the right above a horizontal line over the phrase ''Materials Technology Solutions'' with another horizontal line beneath that phrase.;NORTH AMERICAN ELECTRONICS COMPONENTS MATERIALS TECHNOLOGY SOLUTIONS;Color is not claimed as a feature of the mark.;MATERIALS TECHNOLOGY SOLUTIONS;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. The invention includes methods of electrochemically treating semiconductor substrates. The invention includes a method of electroplating a substance. A substrate having defined first and second regions is provided. The first and second regions can be defined by a single mask, and accordingly can be considered to be self-aligned relative to one another. A first electrically conductive material is formed over the first region, and a second electrically conductive material is formed over the second region. The first and second electrically conductive materials are exposed to an electrolytic solution while providing electrical current to the first and second electrically conductive materials. A desired substance is selectively electroplated onto the first electrically conductive material during the exposing of the first and second electrically conductive materials to the electrolytic solution. The invention also includes methods of forming capacitor constructions.