The in-situ electroluminescence and current voltage characteristics of organic light emitting diode deposited in UHV has been observed. Ultra High Vacuum (UHV) allows to study the system in a clean environment and to monitor in situ the effect of degradation associated with oxidizing agents when those are introduced in the chamber under controlled conditions. Furthermore the changes in the i-v characteristics upon oxygen exposure are reported proving the degradation even at low oxygen partial pressures (<10-8 mbar) as well as changes in depth and distribution of the trap states. The results also confirm the p-doping effect over the whole investigated field range
In-situ characterisation of the oxygen induced changes in a UHV grown organic light-emitting diode
M Murgia;G Ruani;R Zamboni;C Taliani
1999
Abstract
The in-situ electroluminescence and current voltage characteristics of organic light emitting diode deposited in UHV has been observed. Ultra High Vacuum (UHV) allows to study the system in a clean environment and to monitor in situ the effect of degradation associated with oxidizing agents when those are introduced in the chamber under controlled conditions. Furthermore the changes in the i-v characteristics upon oxygen exposure are reported proving the degradation even at low oxygen partial pressures (<10-8 mbar) as well as changes in depth and distribution of the trap states. The results also confirm the p-doping effect over the whole investigated field rangeI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
