Microcavity effects in single-layer light-emitting devices based on poly(p-phenylene vinylene)

15 March 1996

journal article
Published by AIP Publishing in Journal of Applied Physics

Vol. 79 (6) , 3299-3306
https://doi.org/10.1063/1.361229

Abstract

The electroluminescence and photoluminescence light-emitting devices based on poly(p-phenylene vinylene) (PPV), with emitting layers of different thicknesses, were examined. It was shown that microcavity effects occur in thin PPV single-layer sandwich structures (ITO/PPV/Al, Au/PPV/Al) in both electroluminescent and photoluminescent emission. Microcavity effects were demonstrated for a range of different PPV layer thicknesses down to 40 nm. We have successfully prepared resonant-cavity single-layer light-emitting diodes with enhanced external quantum efficiencies of up to 0.1% photons/electron, with aluminum as the electron injecting and gold as the hole injecting electrode. Less pronounced microcavity effects were observed on devices with ITO as the hole injecting contact, due to the low reflectivity of the ITO-glass interface. These findings were confirmed by theoretical simulations based on an optical transfer matrix formalism.

This publication has 24 references indexed in Scilit:

Third-harmonic-generation spectroscopy of poly(p-phenylenevinylene): A comparison with oligomers and scaling laws for conjugated polymers
Physical Review B, 1996
Total-energy study of hydrogen ordering in ${PdH}_{x}$ (0⩽x⩽1)
Physical Review B, 1996
Microcavity effect in a single‐layer polymer light‐emitting diode
Advanced Materials, 1995
Photo‐ and electroluminescence efficiency in soluble poly(dialky1‐p‐phenylenevinylene)
Advanced Materials, 1994
Microcavity effects in organic semiconductors
Applied Physics Letters, 1994
Tuning of photo‐ and electroluminescence in alkylated polythiophenes with well‐defined regioregularity
Advanced Materials, 1994
Light-emitting diodes from partially conjugated poly(p-phenylene vinylene)
Journal of Applied Physics, 1993
Characterization of light emitting diodes and solar cells based on poly-phenylene-vinylene
Synthetic Metals, 1993
Electroluminescence in poly(3-alkylthienylene)s
Synthetic Metals, 1993
Rate equation analysis of microcavity lasers
Journal of Applied Physics, 1989