17 Jun 2002
In a keynote address to the Electronic Information Display conference in London from 21 to 23 November, Jack Silver of the Centre for Phosphor and Display Materials, University of Greenwich, London, will question much of the received wisdom current in phosphor research for next-generation display devices.
In particular, in the development of miniature CRTs, he will say that there seems to be no correlation, as had previously been thought, between particle size and brightness in powder phosphors. In fact, Greenwich has found that crystallinity brought about by various synthetic processes affects the brightness more than the particle size.
With field emission displays (FEDs), it was previously thought that the addition of conducting powders to standard phosphors merely made the deposited screen more conductive. This is now being questioned, Silver will say.
The address will point out that there is little agreement on which phosphors can be used for FEDs. Some manufacturers claim that even minute traces of alkali metals cause instabilities while others state that sulphides contaminate the microtip emitters. Others again actually use sulphide phosphors in microtip devices and report improved performance of low voltage phosphors.
However, Silver will say, the improvements reported so far have not yielded a practical low voltage FED. Zinc oxide still remains the most efficient phosphor at low voltage but little quantitative data is available on the actual maintenance characteristics of low voltage phosphors under long-term operating conditions in a real display.
Turning to LEDs, Silver will stress that, although there has been much hype about using blue, green and red gallium nitride LEDs together to make cheap, efficient white light, it has now been recognized that there are serious problems. These include the fact that the three different LEDs may age at different rates so, although the light begins as white, it may deteriorate quickly. Silver will suggest that a combination of LEDs and phosphors may be a better long-term solution.Link EID:
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