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New Transparent Substrate with Silica Aerogel Film for Surface-Emissive Devices

Published online by Cambridge University Press:  21 March 2011

H. Yokogawa ,
K. Kawano ,
M. Yokoyama ,
T. Tsutsui ,
M. Yahiro  and
Y. Shigesato
H. Yokogawa
Affiliation:
Advanced Technology Research Laboratory, Matsushita Electric Works, Ltd., 1048, Kadoma, Osaka 571-8686, JAPAN
K. Kawano
Affiliation:
Advanced Technology Research Laboratory, Matsushita Electric Works, Ltd., 1048, Kadoma, Osaka 571-8686, JAPAN
M. Yokoyama
Affiliation:
Advanced Technology Research Laboratory, Matsushita Electric Works, Ltd., 1048, Kadoma, Osaka 571-8686, JAPAN
T. Tsutsui
Affiliation:
Dept of Applied Science for Electronics and Materials, Kyushu Univ, 6-1 Kasuga-koen, Kasuga, Fukuoka 816-8580, JAPAN
M. Yahiro
Affiliation:
Dept of Applied Science for Electronics and Materials, Kyushu Univ, 6-1 Kasuga-koen, Kasuga, Fukuoka 816-8580, JAPAN
Y. Shigesato
Affiliation:
Dept of Chemistry, Aoyama Gakuin Univ, 6-16-1 Chitosedai, Setagaya-ku, Tokyo 157-8572, JAPAN
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Abstract

Silica aerogels prepared by sol-gel methods with supercritical drying process have transparency and extremely low refractive index which is not available in any other materials. This extraordinary refractivity is expected to present some new features as an optical material. Ordinarily, coupling-out efficiency of surface-emissive light sources has been assumed to be low. It is due to the losses organized from internal reflection of emitted light at the air-glass interface and dissipation during wave-guiding propagation within the substrate.

However, when material that has extremely low refractive index is inserted between a thin luminescence layer and glass substrate, almost all the light from the luminescence layer can efficiently couple out to air passing through the glass substrate. In this report, we introduce a silica aerogel film as a low refractive index material for surface-emissive devices, such as photoluminescent and electroluminescent device. In the experiments, the photoluminescence intensity of Alq3 through the silica aerogel layer was twice as large as that of the glass substrate without the silica aerogel film. Moreover, we formed a new substrate which contained a transparent electrode on the silica aerogel film. Using this substrate, we fabricated the OLED and observed the disappearance of wave-guiding propagation within the glass substrate.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 660: Symposia JJ – Organic Electronic & Photonic Materials and Devices , 2000 , JJ5.19
Copyright
Copyright © Materials Research Society 2001

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References

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