Within the next ten years a $70 billion market will develop for hybrid flexible electronic devices and antennas.Currently this market is in infancy because expensive silver serves as the conductive ink and the methods for application are too expensive.
The question then becomes, why not copper? After all, look around you and every electronic device uses copper for efficient flow of electricity for efficient operation.The problem is when you deposit a conductive ink with features of less than 50 micro inches, the conductivity is too low for efficient operation. So far, from what we see the problem is unresolved and if it can be, then this market will blossom.If an improved conductive copper ink could become available, applications for sensors biosensors, touch screens, antennas, printed heaters, potentiometers and printed circuit boards, solar panels and electroluminescent panels become viable.
The probem is how do you improve the conductivity of copper in such a fine feature when the surface is maximized? MagnaTech thinks outside the box and has conceived an idea that could economically improve the conductivity of copper in thin deposits to replace expensive silver and processing required for application. However, MagnaTech is a materials research company and not an expert in ink formulation and application. Therefore, MagnaTech intends to team with a company that does manufacture conductive inks, and with an additional consultant who has been there and made many of the mistakes that have prevented application. The team has prepared a proposal describing how we expect to resolve the problem to permit advancement to the pilot stage of development. We believe that the concept that we propose will improve the conductivity at low cost could be available in six to nine months. So far the largest eleven strongest participants have not succeeded. MagnaTech and partners, look forward to participating to develop this conductive ink that would significantly expand the usage for these advanced flexible devices.