Effects of ultra-thin cerium fluoride as anode buffer layer of organic light emitting diodes with thermal activated delayed fluorescence

Hsiu Hsien Su, Hsin Wei Lu, Po Ching Kao, Sheng-Yuan Chu

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

In this paper, the external quantum efficiency was enhanced by UV-ozone treated 0.5 nm CeF3 film as anode buffer layer from 14 to 17 %. The current density enhanced from 170 to 312 mA/cm2, luminance enhanced from 14780 to 24326 cd/m2, and efficiency enhanced from 24.4 to 29.2 cd/A.

Original languageEnglish
Title of host publication23rd International Display Workshops in conjunction with Asia Display, IDW/AD 2016
PublisherSociety for Information Display
Pages1261-1262
Number of pages2
Volume2
ISBN (Electronic)9781510845510
Publication statusPublished - 2016 Jan 1
Event23rd International Display Workshops in conjunction with Asia Display, IDW/AD 2016 - Fukuoka, Japan
Duration: 2016 Dec 72016 Dec 9

Other

Other23rd International Display Workshops in conjunction with Asia Display, IDW/AD 2016
CountryJapan
CityFukuoka
Period16-12-0716-12-09

Fingerprint

Ozone
Organic light emitting diodes (OLED)
Cerium
Buffer layers
Quantum efficiency
Luminance
Anodes
Current density
Fluorescence
Hot Temperature
cerium fluoride

All Science Journal Classification (ASJC) codes

  • Hardware and Architecture
  • Human-Computer Interaction
  • Electronic, Optical and Magnetic Materials
  • Electrical and Electronic Engineering

Cite this

Su, H. H., Lu, H. W., Kao, P. C., & Chu, S-Y. (2016). Effects of ultra-thin cerium fluoride as anode buffer layer of organic light emitting diodes with thermal activated delayed fluorescence. In 23rd International Display Workshops in conjunction with Asia Display, IDW/AD 2016 (Vol. 2, pp. 1261-1262). Society for Information Display.
Su, Hsiu Hsien ; Lu, Hsin Wei ; Kao, Po Ching ; Chu, Sheng-Yuan. / Effects of ultra-thin cerium fluoride as anode buffer layer of organic light emitting diodes with thermal activated delayed fluorescence. 23rd International Display Workshops in conjunction with Asia Display, IDW/AD 2016. Vol. 2 Society for Information Display, 2016. pp. 1261-1262
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abstract = "In this paper, the external quantum efficiency was enhanced by UV-ozone treated 0.5 nm CeF3 film as anode buffer layer from 14 to 17 {\%}. The current density enhanced from 170 to 312 mA/cm2, luminance enhanced from 14780 to 24326 cd/m2, and efficiency enhanced from 24.4 to 29.2 cd/A.",
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Su, HH, Lu, HW, Kao, PC & Chu, S-Y 2016, Effects of ultra-thin cerium fluoride as anode buffer layer of organic light emitting diodes with thermal activated delayed fluorescence. in 23rd International Display Workshops in conjunction with Asia Display, IDW/AD 2016. vol. 2, Society for Information Display, pp. 1261-1262, 23rd International Display Workshops in conjunction with Asia Display, IDW/AD 2016, Fukuoka, Japan, 16-12-07.

Effects of ultra-thin cerium fluoride as anode buffer layer of organic light emitting diodes with thermal activated delayed fluorescence. / Su, Hsiu Hsien; Lu, Hsin Wei; Kao, Po Ching; Chu, Sheng-Yuan.

23rd International Display Workshops in conjunction with Asia Display, IDW/AD 2016. Vol. 2 Society for Information Display, 2016. p. 1261-1262.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

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Su HH, Lu HW, Kao PC, Chu S-Y. Effects of ultra-thin cerium fluoride as anode buffer layer of organic light emitting diodes with thermal activated delayed fluorescence. In 23rd International Display Workshops in conjunction with Asia Display, IDW/AD 2016. Vol. 2. Society for Information Display. 2016. p. 1261-1262