High-efficiency phosphorescent OLED technology

M. Hack; M. Lu; R. Kwong; M. S. Weaver; J. J. Brown; J. A. Nichols; T. N. Jackson

doi:10.1889/1.1825659

High-efficiency phosphorescent OLED technology

M. Hack
, M. Lu
, R. Kwong
, M. S. Weaver
, J. J. Brown
, J. A. Nichols
, T. N. Jackson

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

Universal Display Corp. (UDC), together with its academic partners at Princeton University and the University of Southern California, are developing high-efficiency electrophosphorescent small-molecule OLED devices, based on triplet emission. These device systems show good lifetimes, and are well suited for the commercialization of low-power-consumption full-color active-matrix OLED displays. In this paper we also show how these phosphorescent devices may be driven by low-cost amorphous-silicon backplanes, and discuss benefits that could be gained by employing bistable OLED pixels.

Original language	English (US)
Pages (from-to)	297-301
Number of pages	5
Journal	Journal of the Society for Information Display
Volume	11
Issue number	2 SPEC ISS.
DOIs	https://doi.org/10.1889/1.1825659
State	Published - 2003

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Atomic and Molecular Physics, and Optics
Electrical and Electronic Engineering

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10.1889/1.1825659

Cite this

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abstract = "Universal Display Corp. (UDC), together with its academic partners at Princeton University and the University of Southern California, are developing high-efficiency electrophosphorescent small-molecule OLED devices, based on triplet emission. These device systems show good lifetimes, and are well suited for the commercialization of low-power-consumption full-color active-matrix OLED displays. In this paper we also show how these phosphorescent devices may be driven by low-cost amorphous-silicon backplanes, and discuss benefits that could be gained by employing bistable OLED pixels.",

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AU - Hack, M.

AU - Lu, M.

AU - Kwong, R.

AU - Weaver, M. S.

AU - Brown, J. J.

AU - Nichols, J. A.

AU - Jackson, T. N.

PY - 2003

Y1 - 2003

N2 - Universal Display Corp. (UDC), together with its academic partners at Princeton University and the University of Southern California, are developing high-efficiency electrophosphorescent small-molecule OLED devices, based on triplet emission. These device systems show good lifetimes, and are well suited for the commercialization of low-power-consumption full-color active-matrix OLED displays. In this paper we also show how these phosphorescent devices may be driven by low-cost amorphous-silicon backplanes, and discuss benefits that could be gained by employing bistable OLED pixels.

AB - Universal Display Corp. (UDC), together with its academic partners at Princeton University and the University of Southern California, are developing high-efficiency electrophosphorescent small-molecule OLED devices, based on triplet emission. These device systems show good lifetimes, and are well suited for the commercialization of low-power-consumption full-color active-matrix OLED displays. In this paper we also show how these phosphorescent devices may be driven by low-cost amorphous-silicon backplanes, and discuss benefits that could be gained by employing bistable OLED pixels.

UR - https://www.scopus.com/pages/publications/0043032743

UR - https://www.scopus.com/pages/publications/0043032743#tab=citedBy

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JO - Journal of the Society for Information Display

JF - Journal of the Society for Information Display

IS - 2 SPEC ISS.

ER -

High-efficiency phosphorescent OLED technology

Abstract

All Science Journal Classification (ASJC) codes

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