Study on the transfer induced by laser of organic conducting thin films

L. Rapp, C. Cibert, A. P. Alloncle, P. Delaporte

Research output: Contribution to conferencePaperpeer-review

Abstract

The Laser-Induced Forward Transfer (LIFT) [1] technique has been performed on thin layers of organic conducting material for applications in plastic micro-electronics. This simple, single step, direct printing technique enables tomake surface micro patterning or localized deposition ofmaterial. This process is a promising alternative for manufacture of organic electronic components on flexible supports when usual techniques, such like ink jet printing, cannot be considered. For instance, when the organic material has no solubility properties or when complex architectures are needed. It can be applied to sensitive materials without altering their properties [2, 3]. This opens the way to alternative manufacturing processes for the Organic Field-Effect Transistor (OFET) technology. The ejected material is highly forward directed, with an angular divergence on the order of 3° while propagating over a distance of 2 mm. The high directivity of the ejection with picosecond pulses duration shows that complex micro-structures with a high spatial resolution can be performed using the no contact LIFT technique. The influence of the distance between the donor and acceptor substrates on process reliability is also discussed. Moreover no limitation is expected to miniaturization, which is a necessary requirement.

Conference

Conference9e Colloque sur les Sources Coherentes et Incoherentes UV, VUV et X: Applications et Developpements Recents, UVX 2008 - 9th Symposium on Sources Consistent and Inconsistent UV, VUV and X: Recent Developments and Applications, UVX 2008
Country/TerritoryFrance
CityDourdan
Period7/10/0810/10/08

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