Ziel
The project will investigate the deposition of functional materials for thin-film electronics by so-called additive methods, also referred to as "printable electronics". Current manufacturing processes for thin-film electronics are based on photolithographic processes. These processes have good resolution, however at the same time west most materials that are used and need many process steps (sheet deposition of metal and resist, exposure, development, etching, stripping). Also, some new materials such as light-emitting polymers do not withstand all photolithographic process steps. These cost- and environmental considerations introduce the need for new cost-effective patterning methods that do not waste material. In an ideal scenario, the functional material is added to the substrate in one step, possibly followed by a conversion step. Additive methods suitable for this purpose can be borrowed from the printing industry. However, printing methods are at best developed to resolutions of order ten micrometer, as smaller features cannot be distinguished by the human eye. Although the resolution of some printing methods may be extended somewhat beyond their "graphical reach", there is a need for new methods that can enter the (sub-) micron range. The project consists of two parts. Early stage researchers 1 and 3 will investigate new additive methods for (sub-) micrometer deposition. One of these methods is the use of contact printing methods in the field of soft lithography. The other one is the generation and guided deposition of small droplets generated by electro spraying. Early stage researchers 2 will focus on the functional characterisation of materials deposited by printing methods. During the second part of the project, as printing methods are expected be able to deliver multiplayer integration of patterned materials, we want to investigate the relation between the deposition method and the final electronic functionality and structure of the material in a device.
Wissenschaftliches Gebiet (EuroSciVoc)
CORDIS klassifiziert Projekte mit EuroSciVoc, einer mehrsprachigen Taxonomie der Wissenschaftsbereiche, durch einen halbautomatischen Prozess, der auf Verfahren der Verarbeitung natürlicher Sprache beruht.
CORDIS klassifiziert Projekte mit EuroSciVoc, einer mehrsprachigen Taxonomie der Wissenschaftsbereiche, durch einen halbautomatischen Prozess, der auf Verfahren der Verarbeitung natürlicher Sprache beruht.
- Technik und TechnologieElektrotechnik, Elektronik, InformationstechnikElektrotechnikSensorenBiosensoren
- Technik und TechnologieMaschinenbauProduktionstechnik
- NaturwissenschaftenNaturwissenschaftenklassische MechanikStrömungsmechanikFluiddynamik
- Technik und TechnologieWerkstofftechnikBeschichtung
- Technik und TechnologieNanotechnologieNanomaterialien
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Schlüsselbegriffe
Aufforderung zur Vorschlagseinreichung
FP6-2002-MOBILITY-2
Andere Projekte für diesen Aufruf anzeigen
Finanzierungsplan
EIF - Marie Curie actions-Intra-European FellowshipsKoordinator
EINDHOVEN
Niederlande