HANNOVER MESSE 2019,
01 - 05 April
INM will be demonstrating flexible touch screens, which are produced by printing recently developed nanoparticle inks on thin plastic foils. These inks composed predominantly of transparent, conductive oxides (TCOs) are suitable for a one-step printing process. The transparent lines and patterns are obtained by inkjet printing or alternatively by direct gravure printing, which are electrically conductive even after bending. Thus, a one-step-printing process for cost-efficient electrode patterns is enabled.Conductive coatings with TCOs are usually applied by means of high vacuum techniques such as sputtering. For patterning of the TCO coatings additional cost-intensive process steps are necessary, for example photolithography and etching. The developer produce TCO nanoparticles with special surface properties. The TCO ink is then created by adding a solvent and a special binder to these TCO particles. The binder performs several tasks here: it not only makes the TCO nanoparticles adhere well on the substrate; but it also increases the flexibility of the TCO coating: in this way, the conductivity is maintained even when the films are bent. Using an adapted electrode pattern, flexible capacitive touch screen sensors with high sensitivity and resolution is printed in a simple process. After curing under UV light at low temperatures less than 130 degrees centigrade, the touch screen is completed.Transparent, electronically conductive inks allow conductor tracks to be produced easily even on classic reel-to-reel processes. Initial trials at INM have been promising. The researchers all agree that in the future the use of structured rollers will allow structured, conductive surfaces to be printed with a high throughput at low cost.
Large quantities of steel are used in architecture, bridge construction and ship-building. Structures of this type should not lose any of their qualities regarding ...
Research scientists at Leibniz Institute for New Materials have developed a sinter-free conductive ink based on gold and silver nanoparticles coated with conductive ...
For the proper functioning of touchscreens in smart phones or tablets, microscopically fine conductor lines are required on their surfaces. At the edges of the appliances, ...
For the development of transparent and flexible electrodes, INM is working with the process of electrospinning, a technique that produces ultra-fine fibers that ...