Symmetrical Emission Transparent Organic Light-Emitting Diodes With Ultrathin Ag Electrodes

Symmetrical Emission Transparent Organic Light-Emitting Diodes With Ultrathin Ag Electrodes

This paper describes a way to implement a transparent electrode for symmetrical emission from the bottom and top sides of transparent organic light-emitting diodes (TOLEDs). An ultrathin (∼6 nm) and smooth Ag film was achieved by using the pretreatment of using oxygen plasma pr...

Full description

Saved in:
Bibliographic Details
Main Authors: Illhwan Lee, Sungjun Kim, Jae Yong Park, Sungjoo Kim, Hyung Won Cho, Juyoung Ham, Seungo Gim, Kisoo Kim, Kihyon Hong, Jong-Lam Lee
Format: Article
Language:English
Published: IEEE 2018-01-01
Series:IEEE Photonics Journal
Subjects:
Organic light-emitting diode
transparent
ultra-thin
bi-directional
micro-cavity.
Online Access:https://ieeexplore.ieee.org/document/8332474/
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:This paper describes a way to implement a transparent electrode for symmetrical emission from the bottom and top sides of transparent organic light-emitting diodes (TOLEDs). An ultrathin (&#x223C;6&#x00A0;nm) and smooth Ag film was achieved by using the pretreatment of using oxygen plasma prior to deposition of a nanoscale-thin Ag film on glass. The treatment increased the surface energy, thereby enhancing the wettability of the Ag on glass substrate and consequently leading to the formation of thin and unifrom Ag film with high optical transmittance <italic>T</italic> &#x223C; 76&#x0025; and low sheet resistance <italic>R</italic><sub>S</sub> &lt; 15 &#x03A9; &#x25A1;<sup>&#x2212;1</sup>. Using this scheme, a highly transparent glass&#x002F;Ag&#x002F;WO<sub>3</sub> structure with <italic>T</italic> &#x003D; 85.6&#x0025;, and <italic>R</italic><sub>S</sub> &#x003D; 9.3 &#x03A9; &#x25A1;<sup>&#x2212;1</sup> was designed (ITO: 83.1&#x0025;, 10 &#x2126; &#x25A1;<sup>&#x2212;1</sup>). We conducted finite-domain time-difference simulation for this glass&#x002F;Ag&#x002F;WO<sub>3</sub> electrode to design a weak microcavity structure that retained the transparency and emitting properties. This optimized structure of TOLEDs (Ag &#x003D; 6&#x00A0;nm) showed higher <italic>T</italic> &#x003D; 73.84&#x0025; than those of ITO devices (<italic>T</italic> &#x003D; 73.19&#x0025;), and can induce the weak microcavity effect, resuting in improved electroluminescent properties and increased the luminance value from 38.25 to 56.25 cd A<sup>&#x2212;1</sup> at 25 mA cm<sup>&#x2013;2</sup>.
ISSN:1943-0655

Similar Items