polymeric electroluminescent devices k w wong department of physics the chinese university of hong...
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PolymericPolymericElectroluminescent DevicesElectroluminescent Devices
K W Wong
Department of Physics
The Chinese University of Hong Kong
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ContentsContents
Introduction– Why PLED/OLED?– Business & Academic
Historical background Present status in research– Underlying physics– Materials research– Device technology– Device failure
Our current status
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IntroductionIntroduction…why PLED/OLED
Simple & robust device structure Good processability Low production cost Theoretically full colour range Workable at low temperature Low electrical requirement Applicable on flexible substrate
(e.g. plastics)
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Metallic cathodePolymeric / Organic layerTransparent ITO anode
Glass
…typical structure
IntroductionIntroduction
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ITOHole
transportlayer
CathodeElectrontransport
layer
Holeinjection
Electroninjection
…EL mechanism
IntroductionIntroduction
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…applications
IntroductionIntroduction
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IntroductionIntroduction…business
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IntroductionIntroduction…business
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IntroductionIntroduction…academic
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IntroductionIntroduction
During 1990s, there were over 5000 titles registered in Chemical Abstracts and over 500 related US Patents.
The publications and patents ranged from the areas of physics, chemistry, materials science, electronic engineering, and etc.
…academic
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History – “High driven voltage”History – “High driven voltage”
1950s Bernanose - High-voltage AC field to crystalline thin film of acridine orange & quinacrine.
EL in organic materials 1960 Gurnee & Fernandez - AC-driven EL cells using anthracene.
(DOW) emit blue light 1963 Pope - DC-driven EL cells using single crystals
of anthracene.
REMARKS...
During this period, EL with organic materials were demonstrated. The EL cells were firstly driven by AC-field, while DC-field was employed in later stages. However, a HIGH driven voltage (~102 V) were required.
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History – “Use of electrodes”History – “Use of electrodes”
During late 60s and early 70s, the idea of using of metal electrodes to enhance carrier injection. This significantly reduces the driven voltage to the order to ~10 V.
REMARKS...
1969 Digby & Schadt - First use of a reactive cathode in organic EL cell to facilitate e- injection. US Patent 3,621,321
1975 Partridge - First EL cell with polymer: polyvinyl carbozole (PVK) doped with perylene.- First use of alkali metal cathode. US Patent 3,995,299
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History – “Turning point”History – “Turning point”
1987 C. W. Tang - A two-layer structure of vacuum-deposited (Eastman Kodak Co.) small-molecules film;
- Use of indium-tin-oxide as hole-injection anode;- Driven voltage < 10 V. US Patent 4,164,431, 4,356,429
1990 R. H. Friend et. al. - fabricated green-yellow EL cell using poly (Cambridge University) (p-phenylene vinylene), PPV in a single
layer structure. Nature 347, 539 (1990)
REMARKS...
The pioneering works from Tang and Friend have aroused worldwide interests from physicists, materials scientists and engineers.
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History – “Commericalization”History – “Commericalization”
1980s Eastman Kodak Co. - actively initiated related intensive research programmes.
1991 UNIAX - a new company spun out of UC Santa Barbara, the company was later acquired by DuPoint.
1992 Cambridge Display Technology - a company established by Friend et. al. based on their patents on material synthesis and technologies.
1997 Pioneer Electronics Co. - manufactured car radio consoles based on organic EL materials.
1999 Covion Organic Semiconductors - a spin-off company of Hoechst.
Others: Dow Chemicals, DuPont Chemicals, Philips Electronics, Epson Groups, IBM, and etc.
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Present status in research – Present status in research –
Efficiency > 20 Im/W, Lifetime ~ 10,000 hours at 200 cd/m2,
(target: 100,000 hours) Achieved emission of green, blue, red, yellow
and white light, Already have simple commercialized
products.
…achievement
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Present status in research – Present status in research – Area of interests:
– Insertion of buffer layers• C. W. Tang et. al. from Eastman Kodak Co.
Most buffer layers used are inorganic materials, e.g. LiF, SiO2, and etc.– Surface and interface modification
• R. H. Friend et. al. from Cambridge University Most treatments are restricted to plasma and chemical treatment on ITO.
– Energy level alignment at the interfaces• A. Kahn et. al. from Princeton University• Y. Gao et. al. from U. of Rochester, C. W. Tang et. al. from Eastman Kodak Co.• S. Forrest et. al. from Princeton University
Experimental findings based on different system leads to very different proposed mechanism.
Although lots of studies have been performed, there is still no unified picture on the energy level alignment between the electrode/polymer and polymer/polymer interfaces. Also, the use of buffer layers provides a large platform for research.
PENDING ISSUES...
…underlying physics
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Present status in research –Present status in research –…materials research
Leading polymeric emissive materials:
– Poly (p-phenylene vinylene), PPV – Poly (phenylene), PPP– Polyfluorenes, PFO
Y
Y
R
RR R R R
R RR
PPV PFO PPP
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Present status in research –Present status in research –…materials research
Carrier transport materials:– Poly (3,4-ethylene dioxythiophene), PEDOT (HTL)– Polyaniline, PANI (HTL)– Arylamine, -NPB (HTL)– Copper Phthalocyanine, CuPc (HTL)– Tris-(8-hydroxyquinoline) aluminium, Alq (ETL)– Bathophenanthroline, BPhen (ETL)
O O
S
PEDOT
N
N
PANI
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Present status in research –Present status in research –…materials research
Dopants:– Tetrephenylporphyrin, TPP (Red dye)– Rubrene (Red dye)– Inorganic dopants, e.g. Li, LiF
Composite materials:– Polymer/polymer composite– Polymer/organic composite
Rubrene TPP
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Present status in research – Present status in research – Area of interests:
– Transparent stacked layer device structure• Forrest and Kahn et. al., from Princeton University
…device technology
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Present status in research – Present status in research – Area of interests:
– Microcavity EL devices
• Tokito et. al., from TOYOTA, Inc.
– Inkjet printing of polymers
• Yang Yang et. al., from UCLA
– EL devices on flexible substrate
• Universal Display Co.
…device technology
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Present status in research – Present status in research –
Area of interests:
– Inter-diffusion between layers– Kato et. al., J. Appl. Phys. 81, 7313 (1997)
– Emergence of “dark” spot– Ch. Jonda et. al., J. Appl. Phys. 85, 6884 (1999)
– Life-time related problems– Parker et. al., J. Appl. Phys. 85, 2441 (1999)
– Thermal breakdown of organic materials– Z. Zhou et. al., Adv. Mater. 12, 265 (2000)
– Quenching effects by ambient species (e.g. O2)– J. Yu et. al., Science 289, 132 (2000)
– Susceptibility of certain materials towards environment– PEDOT absorbs water quickly from ambient and degrade the device
…device failure
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Our current statusOur current status
Insertion rod (48" travel)
HV chamber for depositionand surface treatment with
evaporation sourceand RF ion source
Central UHV chamberfor evaporation of metals
& Kelvin probe measurement
UHVAFM/STM
Spincoater
Nitro
gen g
love bo
xfor sp
in-co
ating
and
samp
le prep
aration
Fast entryloadlock
…integrated coating & analysis system
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Our current statusOur current status…integrated coating & analysis system
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Our current statusOur current status…green emitting PLED fabricated here
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Our current statusOur current status
On-going research
Interface characterization of PEDOT:PSS/ITO,Blocking of In diffusion from ITO to
PEDOT:PSS by using “Self Assembly Monolayer (SAM)”,
Solvent effect on ITO,Study on polymer / ITO contact under different
spin-casting conditions.