This section shows links to related European projects in the
field of Polymer Electronics.
| Acronym and link |
Objectives |
| FP6
projects |
|
| IST-SHIFT - Smart High-Integration Flex technologies |
The objective of the project is the development of smart,
high-integration, mechanically flexible electronic systems, for a wide variety
of applications. |
| OLLA - High Brightness OLEDs for ICT & Next Generation Lighting Applications |
The mission of the Integrated Project OLLA is to accomplish everything necessary for the next generation light source for the 21st century : OLEDs. |
| NMP-NAIMO
- NAnoscale Integrated processing of self-organizing Multifunctional
Organic Materials |
NAIMO will develop new multifunctional materials that are
processed by solution-based additive manufacturing (e.g. direct printing),
under quasi-ambient conditions, so that a set of materials can be added
onto a wide range of structural substrates, to form a composite material
with designed multifunctionality in an environmentally friendly way. |
| COPRAS - Cooperation
Platform for Research and Standards |
COPRAS is a consortium put together with the objective to
improve the interface between research and standards and being run by the
three officially recognized European Standards Organizations, CEN, CENELEC
& ETSI, together with the Open Group and the World Wide Web Consortium.
|
| adria - Display networking for Europe |
A consortium of six European organisations forms this network for enhancing the competitiveness of the European advanced displays community. Funded by the European Commission, adria aims to create a "one stop shop" for advanced information display technologies and applications for Europe. |
| FP5
projects |
most of the below listed projects are completed |
| IST-Highlight
- HIGH Performance Graphic Polymer Displays |
The objective of the project is the development of high-performance
monochrome and colour polymer light emitting diode (PLED or polymer LED)
flat panel displays for consumer and transportation applications. The project
also expects to contribute to the expansion of the polymer materials infrastructure
in Europe and to create a European supply of high-performance graphic PLED
displays. |
|
IST-FEXLed - Flexible Polymer Light Emitting Displays
|
The FLEXled project aims at demonstrating reliable flexible
displays for nomadic consumer electronics applications, based on a flexible
emissive technology: polymer light emitting diodes (PLED). |
| IST-
STEPLED - Singlet and Triplet Emission in Polymers for Light-Emitting
Displays |
The objectives of STEPLED are to develop the basic understanding
of the science which controls the spin states of polymer-based LEDs, and
to use this understanding to provide direction for the next phase of industrial
development. |
| IST-PHOTOLEDD - Photopatternable Light Emitting Polymer
Microdisplays with Unique 3D Capability |
The primary aim is to develop novel photopatternable organic
light emitting diode (p-OLED) RGB emitter materials and associated fabrication
processes as the basis for making full colour p-OLED-on-silicon displays.
|
| GROWTH-Powerplay - Highly efficient and low power consuming
materials in optically enhanced polymer light-emitting displays |
European society is increasingly dependent on information,
anytime and any place. The mobility of information is enabled by a dramatic
miniaturisation of electronic equipment. At present, this development is
limited because of inefficient energy storage in low capacitance (and bulky
batteries), and power consuming, bulky displays. This project aims at tackling
the latter issue by the development of new materials for use in flat, thin,
low-power polymer light-emitting displays (PLED). |
| GROWTH-Plastronix - Low-cost all-polymer integrated
circuits for low-end high-volume identification applications |
Original research objectives of this 2-year research project
was to design and control a manufacturing process for the polymeric semiconductor,
and to develop an industrial process technology for flexible polymeric integrated
circuits. |
| GROWTH-DISCEL - Self-Assembling and Self-Healing Electronic
Devices Based on Mesomorphic Discotic Materials |
Most optoelectronic devices rely on inorganic semiconductors.
Organic semiconductors, principally conjugated polymers (CP), have the advantages,
over their inorganic counterparts, of easier processing methods leading
to lower fabrication costs of electronic devices. Potential applications
of existing organic semiconductors are limited by their current low performances.
Our problem solving approach is to replace CP by functional discotic liquid
crystalline (LC) materials. Indeed, recent studies have shown that they
exhibit significantly improved semi-conducting properties. This should pave
the way to more efficient devices, such as: solar cells, light-emitting
display, and field effect transistors. |
| IST-NAIS - Next Generation Active Integrated Optic
Subsystems |
We propose to develop existing integrated optical microresonator
technology into a robust, densely-integrated active photonic platform, to
create an optical subsystem on a chip. |
| IST-APPTECH - All Polymer Photonic Technologies |
Polymer-based photonics materials are now emerging as a revolutionary
photonics technology promising advances in performance, reductions in cost
and improved ease of manufacture that will outstrip their existing inorganic
counterparts in key datacoms and telecoms applications. The goal of this
project is to apply an iterative approach to design, synthesis, processing
and fabrication of new polymer-based materials, fabrication processes and
polymer optical devices in order to develop advanced polymer-based photonic
technology platforms. |
| IST-NANOPHOS - NANOstructured PHOtonic Sensors |
no description available |
