Controlling charge injection in organic electronic devices using self-assembled monolayers
- 15 December 1997
- journal article
- research article
- Published by AIP Publishing in Applied Physics Letters
- Vol. 71 (24), 3528-3530
- https://doi.org/10.1063/1.120381
Abstract
We demonstrate control and improvement of charge injection in organic electronic devices by utilizing self-assembledmonolayers(SAMs) to manipulate the Schottky energy barrier between a metal electrode and the organic electronic material. Hole injection from Cuelectrodes into the electroluminescent conjugated polymer poly[2-methoxy,5-( 2 ′ -ethyl-hexyloxy)-1,4-phenylene vinylene] was varied by using two conjugated-thiol based SAMs. The chemically modified electrodes were incorporated in organic diode structures and changes in the metal/polymer Schottky energy barriers and current–voltage characteristics were measured. Decreasing (increasing) the Schottky energy barrier improves (degrades) charge injection into the polymer.Keywords
This publication has 14 references indexed in Scilit:
- Polymeric anodes for improved polymer light-emitting diode performanceApplied Physics Letters, 1997
- Derivatized electrodes in the construction of organic light emitting diodesAdvanced Materials, 1997
- Direct Measurement of Conjugated Polymer Electronic Excitation Energies Using Metal/Polymer/Metal StructuresPhysical Review Letters, 1996
- All-Polymer Field-Effect Transistor Realized by Printing TechniquesScience, 1994
- Optocoupler made from semiconducting polymersJournal of Electronic Materials, 1994
- Dual-function semiconducting polymer devices: Light-emitting and photodetecting diodesApplied Physics Letters, 1994
- Carrier tunneling and device characteristics in polymer light-emitting diodesJournal of Applied Physics, 1994
- Visible light emission from semiconducting polymer diodesApplied Physics Letters, 1991
- Light-emitting diodes based on conjugated polymersNature, 1990
- Organic electroluminescent diodesApplied Physics Letters, 1987