Fabrication of Dispersion-type Inorganic Electroluminescence Panel Using Planar Electrodes

T. Nonaka, Shin-ichi Yamamoto
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Abstract

In dispersion-type inorganic electroluminescence (EL) devices, a high-voltage drive is required to achieve high luminescence, as the thickness of the phosphor layer is 20 μm or more. Transparent electrodes such as indium tin oxide (ITO) are required, because light emission from the phosphor layer is necessary. To solve these issues, we developed a circular comb-type metal electrode with several narrow gaps on a glass substrate that produces a strong electric field, which is impossible to achieve with conventional structures. A comb-type metal (Au) electrode and a comb-type ITO electrode were used in the experiments. The luminance from the phosphor layer side at 30 V/μm was 26.9 cd/m for the Au electrode, which was twice that for the ITO electrode (19.9 cd/m). Thus, it is possible to fabricate a light-emitting device without transmissive electrodes by using a lustrous metallic material such as Au with a circular comb-type design.
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利用平面电极制备分散型无机电致发光面板
在色散型无机电致发光器件中,由于荧光粉层的厚度为20 μm以上,需要采用高压驱动来实现高发光。透明电极如氧化铟锡(ITO)是必需的,因为从荧光粉层发光是必要的。为了解决这些问题,我们开发了一种圆形梳状金属电极,在玻璃基板上有几个狭窄的间隙,可以产生强大的电场,这是传统结构无法实现的。实验采用梳状金属(Au)电极和梳状ITO电极。在30 V/μm下,Au电极的荧光粉层侧发光亮度为26.9 cd/m,是ITO电极(19.9 cd/m)的2倍。因此,可以通过使用具有圆形梳型设计的有光泽的金属材料(例如Au)来制造没有透射电极的发光器件。
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