Title :
Hopping and Drift--Diffusion Currents in Organic Devices
Author :
Sivalertporn, Kanchana ; Osotchan, Tanakorn
Author_Institution :
Dept. of Phys., Mahidol Univ., Bangkok
Abstract :
In physical model, the carrier transport in organic devices can be described by hopping mechanism however a number of reports were successfully applied the drift--diffusion model used normally in continuous media to numerically simulate the carrier transport in discrete organic material. In this paper the carrier transport derived from hopping and drift--diffusion models were investigated in the organic device composed of ITO/MEH--PPV/A1. The calculated current densities from both models exhibit the same feature since the boundary current at the contact were evaluated with the same current components. However the slightly differences were found in the internal electric field and carrier density. This is probably due to the slightly modification of the carrier rate equation in the nearest neighbor hopping approximation and Sharfetter-Gummel spatial discretization.
Keywords :
carrier density; diffusion; hole mobility; hopping conduction; organic compounds; polymer films; Sharfetter-Gummel spatial discretization; carrier rate equation; carrier transport; continuous media; current density; drift--diffusion model; hopping approximation; hopping model; organic devices; Charge carrier density; Charge carrier processes; Electrodes; Equations; Frequency; Numerical simulation; Organic light emitting diodes; Organic materials; Spontaneous emission; Systems engineering and theory; Drift--Diffusion model; Hopping model; Organic device;
Conference_Titel :
Nano/Micro Engineered and Molecular Systems, 2007. NEMS '07. 2nd IEEE International Conference on
Conference_Location :
Bangkok
Print_ISBN :
1-4244-0610-2
DOI :
10.1109/NEMS.2007.352146
