Restraints in low dimensional organic semiconductor devices at high current densities
Tipus de documentArticle
Condicions d'accésAccés restringit per política de l'editorial
Projecte de la Comissió EuropeaE-GAMES - Surface Self-Assembled Molecular Electronic Devices: Logic Gates, Memories and Sensors (EC-FP7-306826)
The understanding of the charge carrier transport in electronic materials is of crucial interest for the design of efficient devices including especially the restraints that arise from device miniaturization. In this work the performance of organic thin-film and single crystal field-effect transistors with the same active material was studied in detail focusing on the high current density regime, where a pronounced non-hysteretic maximum in the transconductance was found. Interestingly, in this operation mode for both, thin films and single crystals, comparable densities of free and gate-induced charge carriers were estimated. Kelvin probe microscopy was used to measure the contact potential difference and the electrical field along the transistor channel during device operation exhibiting the formation of local space charges in the high current density regime.
CitacióPfattner, R. [et al.]. Restraints in low dimensional organic semiconductor devices at high current densities. "Organic electronics", Gener 2014, vol. 1199, núm. 15, p. 211-215.
Versió de l'editorhttp://www.sciencedirect.com/science/article/pii/S1566119913004710
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