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CPP: Fachverband Chemische Physik und Polymerphysik
CPP 16: Organic Electronics and Photovoltaics: Transport of Charges - from Molecules to Devices (joint session with HL, TT)
CPP 16.10: Vortrag
Dienstag, 17. März 2015, 12:00–12:15, C 130
Investigation of semiconducting polymers with thermally cleavable side chains for application in multilayer devices I: Morphology and OFET devices. — •Janusz Schinke1,2, Sabina Hillebrandt2,3, Milan Alt2,5, Torben Adermann2,4, Tobias Glaser2,3, Annemarie Pucci2,3, Norman Mechau2,5, Manuel Hamburger2,4, Wolfgang Kowalsky1,2, and Robert Lovrincic1,2 — 1TU Braunschweig, IHF, Germany — 2InnovationLab GmbH, Heidelberg, Germany — 3U. Heidelberg, KIP, Germany — 4U. Heidelberg, OCI, Germany — 5KIT, Germany
Conjugated polymers enable the production of electronic devices from solution at room temperature due to their advantageous combination of their electrical, optical and film-forming properties. A major milestone for this emerging technology consists in achieving printed multi-layer functional devices. A great challenge for printed organic electronics is to deposit the subsequent layer of a multilayer component from the same solvent without destroying the underlying freshly deposited layer. The solubility reduction of semiconducting molecules by the external stimulus of heat is the aim of our work. Novel organic semiconductors bearing thermally cleavable side chains were investigated via AFM, ellipsometry, PE spectroscopy and IR spectroscopy. Their charge transport characteristics were studied using OFETs. These methods allow us to obtain a clear understanding of the pyrolysis process and its influence on the resulting performance. We achieve very homogeneous layers after thermal treatment which exhibit excellent solvent resistance and additionally show an increase in OFET performance.