Emission enhancement in single-layer conjugated polymer microcavities

1 July 1996

journal article
Published by AIP Publishing in Journal of Applied Physics

Vol. 80 (1) , 207-215
https://doi.org/10.1063/1.362806

Abstract

We have studied the luminescence properties of microcavities which are formed by a single layer of poly(para‐phenylenevinylene) sandwiched between a dielectric mirror coated with a conducting indium tin oxide layer and a semitransparent metal electrode. Compared with a device without cavity structure, the spectral and spatial emission are significantly narrowed, and the forward emission intensity is enhanced. We measure a spectral linewidth (full width at half maximum) of the cavity modes of about 4 nm in photoluminescence and 20 nm in electroluminescence and an enhancement of luminescence intensity in the forward direction of more than an order of magnitude. The implications of the narrowing of the emission and possible transfer mechanisms for excitation energy are discussed.

This publication has 28 references indexed in Scilit:

Microcavity effects in single-layer light-emitting devices based on poly(p-phenylene vinylene)
Journal of Applied Physics, 1996
Optical mode structure in a single-layer polymer microcavity
Synthetic Metals, 1996
Electroluminescence from a conjugated polymer microcavity structure
Applied Physics Letters, 1995
Microcavity effect in a single‐layer polymer light‐emitting diode
Advanced Materials, 1995
Sharply directed emission in organic electroluminescent diodes with an optical-microcavity structure
Applied Physics Letters, 1994
Highly Efficient Light-Emitting Diodes with Microcavities
Science, 1994
Microcavity effects in organic semiconductors
Applied Physics Letters, 1994
Time-resolved luminescence measurements in poly(p-phenylenevinylene)
Synthetic Metals, 1993
Progress towards processible materials for light‐emitting devices using poly(p‐phenylphenylenevinylene)
Advanced Materials, 1992
Light-emitting diodes based on conjugated polymers
Nature, 1990