VISUALIZATION
Cambridge Display Technology Awarded DTI Grant for Work On Fluid Modeling
Project Will Benefit the Development of Low-Cost Flexible Displays: Cambridge Display Technology (CDT), a pioneer in the development of polymer light emitting diode (P-OLED) technology, has announced that it has been awarded another grant by the UK Department of Trade and Industry (DTI). This grant will part fund a project which will be important in the field of low-cost organic electronic devices, and especially in the development of low-cost flexible displays. The total value of project is around $500k.
The project will aim to develop commercially viable computational fluid dynamic (CFD) simulation techniques to model the drying behavior of organic semiconductors. Until now, the production of working display prototypes has required the use of empirical data which is both expensive and slow to obtain. Using the new models, the development cycle time should be significantly reduced. Working with lead partner CDT on this project is ANSYS Europe, a subsidiary of ANSYS, which has many years experience of multiphase free-flow modeling. ANSYS Europe will implement the models for organic semiconductor drying behavior in order to provide predictive tools within its ANSYS CFX(r) software, which should lead to further understanding of the complex drying process. When completed, the materials process model will itself be made available commercially by the partners to display makers wishing to accelerate their own P-OLED display developments, as well as helping CDT to improve the performance and time to market of its own range of inkjet inks. "The support of the DTI on this project is greatly appreciated," said Dr. David Fyfe, CEO of CDT. "It will allow us to make fast progress in improving our ability to develop inks and device technology, as well as potentially providing a new product in its own right. "The announcement of this grant success comes after our announcement of work on metal deposition processes, also important in the development of flexible displays, and underscores the increasing importance which CDT puts on flexible display and OTFT development."