Electro-thermal modeling of organic semiconductors describing negative differential resistance induced by self-heating

Abstract

We discuss self-heating of organic semiconductor devices based on Arrhenius-like conductivity laws. The self-consistent calculation of charge and heat transport explains thermal switching, bistability, and hysteresis resulting from S-shaped current-voltage curves with regions of negative differential resistance (NDR). For large area thin film organic… (More)

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Cite this paper

@article{Glitzky2013ElectrothermalMO, title={Electro-thermal modeling of organic semiconductors describing negative differential resistance induced by self-heating}, author={Annegret Glitzky and Klaus Gartner and J C Fuhrmann and Th. Koprucki and Aaron Fischer and Bj{\"{o}rn Lussem and Karl Leo and R. Scholz}, journal={2013 13th International Conference on Numerical Simulation of Optoelectronic Devices (NUSOD)}, year={2013}, pages={77-78} }