Conductors and semiconductors for advanced organic electronics

Timo Meyer-Friedrichsen; Wilfried Lövenich; Ron Lubianez

doi:10.1117/12.898648

7 September 2011 Conductors and semiconductors for advanced organic electronics

Timo Meyer-Friedrichsen, Wilfried Lövenich, Ron Lubianez

Proceedings Volume 8117, Organic Field-Effect Transistors X; 811709 (2011) https://doi.org/10.1117/12.898648
Event: SPIE Photonic Devices + Applications, 2011, San Diego, California, United States

Abstract

The concept of self-asssembling monolayer formation of organic semiconductors using highly reactive chlorosilane linker groups has been extended to the phosphonic acid linker which can be handled in air. A first proof of concept using an oxidized Al-gate electrode to form a hybrid thin dielectric resulted in a low voltage field effect transistor with hole mobilities of 10^-5 cm²/Vs. PEDOT based hole-transport and conductive materials have been improved for use in organic photovoltaics and wide area devices that require Ag busbars. A novel etchant can provide an invisible pattern for conductive transparent electrodes comprised of Clevios^TM PEDOT:PSS.

Citation Download Citation

Timo Meyer-Friedrichsen, Wilfried Lövenich, and Ron Lubianez "Conductors and semiconductors for advanced organic electronics", Proc. SPIE 8117, Organic Field-Effect Transistors X, 811709 (7 September 2011); https://doi.org/10.1117/12.898648

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