LED technology – OLEDs (Organic light emitting diodes)


See also: Electronics Weekly’s other roundups of content related to LEDs:
LED technology – White LEDs
LED technology – Coloured LEDs
LED technology – LEDs general
LED technology – LEDs Lighting 1
LED technology – LEDs Lighting 2
LED technology – OLEDs

Organic light-emitting diodes – OLEDs – emit light when a current flows through them. Unlike conventional LEDs, OLEDs are made from layers of plastic and other organic (carbon-based) materials.

Examples are already in mass production for displays in MP3 players and phones.

Sheets of OLED material are proposed to replace light bulbs and fluorescent tubes for house and office lighting.

There are several reasons why OLEDs are causing so much excitement amongst makers of gadgets and lighting products:

  • The materials are deposited by industrial coating processes which are cheaper than the techniques required to make conventional LEDs.
  • They are inherently thin.
  • They can be made on flexible plastic substrates – which will almost certainly lead to full colour flexible displays less than 1mm thick.
  • All colours, and multi-colours, are possible

However, there are drawbacks:

  • OLEDs are not yet as efficient at making light as conventional LEDs, although they are getting closer and already beat ordinary light bulbs.
  • Certain materials in OLEDs are incredibly sensitive to moisture which leads to short life, particularly on plastic substrates. This is the main reasons holding back flexible OLED manufacture.
  • LED technology can be divided into two: ‘small molecule’ championed originally by Kodak, and Cambridge Display Technology’s ‘polymer’ type sometimes called P-OLEDs.

Almost all displays in production are small molecule.

These materials have to be deposited in a vacuum, but this is of little inconvenience for small displays on glass substrates.

Polymer types can also be vacuum processed but, most importantly, can also be printed using standard printing techniques. This ‘solution processing’ is far cheaper than vacuum processing.

Like-for-like materials have tended to be less efficient at producing light when solution processed, but this may no longer be the case.

OLEDs are generally made of several layers. The following is a typical stack, although many variations are possible:

  • Anode
  • Electron donor
  • Electron transport
  • Emitter
  • Hole transport
  • Hole donor.
  • Cathode

Several of these can be moisture-sensitive, particularly the most effective cathode material: metallic calcium.

For all practical purposes, glass blocks all moisture, so displays made on a glass substrate and covered by a second glass sheet can have a long life, particularly if the edges are hermetically sealed.

Moisture passes fairly easily through plastics, leading to much reduced durability, but plastic substrates are essential for flexible displays.

This has lead to a quest for ‘barrier layers’ which can be coated on plastic to stop moisture getting through.

So far there is no effective barrier layer that is flexible and cheap enough for mass-production.


Figure 1. Osram white 46 lm/W lighting OLED

Quite good barrier layers exist, which are quite expensive because they are made with many layers of water-blocking metal oxides, separated by other layers that stop the oxide cracking.

The dream is to produce OLEDs, both full-colour displays and white lighting types, on flexible plastic.
Not necessarily because the products will be flexed in use, but because they will be far more robust than millimetre-thick glass sheets to handle, transport, and install.

Within the molecules that make OLEDs emit light, there are two different processes that can produce light: phosphorescence and fluorescence, also known as triples and singlet emission respectively.

The type of emission is directly dependent on the materials used in the OLED. 

Phosphorescent processes produce more photons (light) for a given number of electrons (current), but are slower – more suited to lighting, less suited to displays.
Some researchers that argue fluorescence can be made to produce as many photons as phosphorescence.

OLED displays should not be confused with E Ink displays – E Ink displays only reflect light and emit no light of their own. 

In the following, we bring together resources from Electronics Weekly and UK and EU governmental bodies to provide detailed reference information about LED technology, specifically white LEDs.


Most recent news

Previous news to note

OLED display revenues up 60% year on year – DisplaySearch

Partnership to put OLEDs into TVs and PCs

Comment: Samsung folding OLED is what we want

OLEDs take on the lighting market

Lighting OLED hits efficiency and colour highs

Video – Samsung reveals folding OLED

Small pixel OLED design explored

Smallest OLED pixel size created in France

First OLED panels to be manufactured in UK

OLED consortium emerges with EC funding

OLED has 8,000 hour lifetime, says US supplier

OLED display firm signs deal in Japan

Lighting OLEDs are efficient and live long – UDC

OLEDs go big in the solid state lighting market

OLED-T launches low-temperature LiF replacement

Osram demos designer OLED table lamp

Osram hits 46 lm/W in OLED lighting tile

Kodak, LG sign OLED cross-licensing deal

OLED display market will jump to $4.5bn


From Electro-ramblings

OLED lighting app promises 5,000 hours lifetime
More developments on the OLED front – and it seems good news for those seeking the practical application of OLED lighting.

From Mannerisms

Ten Biggest OLED Applications 2008-2010
Thanks to DisplaySearch for this one. The ten biggest apps in terms of $s for OLEDs over the next eighteen months are:

Eight Fastest Growing/Declining Flat Panel Technologies
Thanks to DisplaySearch for this one. Here are the fastest growing flat panel display technologies between 2008 and 2010 ranging from OLED growing at 136 per cent and E-Paper at 85 per cent over the two year period, down to LCOS and DLP declining, respectively, at minus 26 per cent and minus 43 per cent

OLED A Disapointment
OLED has proved to be a disappointment, according to Paul Gray of analysts DisplaySearch, speaking at Sharp’s recent Innovation Forum in Munich.

Ten Best OLED Manufacturers
OLEDs have not turned out to be the storming replacement to TFT they were once cracked up to be with a market hovering around the billion dollar mark. Here are the ten best manufacturers:

Tags: carbon, current, layers, oled, OLEDs, organic, plastic

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