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Breakthrough In Plastic Lasers

Posted by kdawson on from the attach-plastic-sharks-here dept.

esocid writes "Conventional electrically-powered laser diodes used in everyday consumer goods like DVD players are currently based on inorganic semiconductor materials such as gallium arsenide, gallium nitride, and related alloys. Plastic laser diodes offer the promise of covering more of the light spectrum than their counterparts, from near ultraviolet to the near infrared. Yet despite over a decade of research worldwide, plastic laser diodes have not yet been demonstrated because there haven't been any plastics that could sustain a large enough current while also supporting the efficient light emission needed to produce a laser beam. Now researchers at Imperial College London, publishing their findings in Nature Materials in April, are studying a plastic related to PFO (polydioctylfluorene), a blue-light emitting material; by making subtle changes in the plastic's chemical structure they have produced a material that transports charges 200 times better than before, while actually increasing its ability to emit light efficiently."

10 of 54 comments (clear)

  1. Great! by Daimanta · · Score: 5, Funny

    Now, all we need is a breakthrough with plastic sharks.

    --
    Knowledge is power. Knowledge shared is power lost.
  2. Awsome by Peter_The_Linux_Nerd · · Score: 4, Funny

    Cool, the US government has worked out another piece of technology from the Roswell crash.

  3. Original paper, and laser wavelength tunability by compumike · · Score: 5, Informative

    The original article is here here.

    Something cool is that while traditional semiconductor lasers have an output wavelength that is very much controlled by the bandgap energy of the material, here the laser is substantially tunable by adjusting the plastic's thickness. (Of course, this is just adjusting the energy states too, but it seems more tunable.) From the paper, "Tuning the film thickness (45-160 nm) enabled access to lasing wavelengths across a 45 nm spectral window (434-479 nm)."

    While it's not real-time electrical tuning over that kind of bandwidth, it's still pretty cool. Tunability is especially useful for detectors of various chemicals, and now this is getting into the wavelength range where more biological substances start to have their spectrographic signatures.

    --
    Electronics kits for the digital generation!

    1. Re:Original paper, and laser wavelength tunability by Liz99 · · Score: 3, Informative

      Unfortunately, you have to be a subscriber to have access to the article. I'd be interested in seeing it at some point.

  4. Re:What about chromatically accurate displays? by argent · · Score: 4, Informative

    I wonder how you think pixels change color now?

    Pixels don't actually "change color" now. The individual pixels in your display change the relative brightness of three sub-pixel elements, but the frequency of each element emits doesn't change... the relative proportions of three fixed colors change. This is of course an approximation an approximation that is usually good enough to fool the eye, which means it's good enough for most purposes, but it's not chromatically accurate and there are applications where that matters.

  5. A step in the right direction by MLCT · · Score: 3, Informative

    This is moving in the right direction.

    The holy grail is an electrically pumped organic laser. Varying the co-polymer ratios has improved electron mobilities, but they still have many orders of magnitudes to go before they would get into the likely energy densities required for lasing.

    People are attacking it from multiple ends. Bradley's group have gone at it by taking an efficient light emitter and attempting to improve its pitiful charge mobilities. Others have taken very good charge carrying organic materials, LETs (light emitting transistors) and attempted to improve their pitiful light emission. (paper)

  6. Re:What about chromatically accurate displays? by lixee · · Score: 3, Informative

    They are tunable in the sense that chemists can play around with them in order to change the bandgap (from Lowest Unoccupied Molecular Orbital to Highest Unoccupied Molecular Orbital), thus changing the wavelength produced.

    I don't know what you mean by changing the color "in real time", but it seems to me that you're talking about electrochemical display devices. They're ridiculously simple to build and can cover a wide range of contrasts. Granted, PEDOT:PSS or similar materials can only go from transparent to dark blue (through a lot of shades of blue), and switching time is quite slow, but let's not forget that this field is at its infancy. Hang around, organic electronics might be huge in the medium term.

    --
    Res publica non dominetur
  7. Plastic Lasers .... by brunokummel · · Score: 3, Funny

    Now my LEGO Gun will be complete!
    MWAHAHAHAH!

    --
    What is best in life? To crush your enemies, to see them driven before you and to hear the lamentations of their women.
  8. We can EASILY defeat your meagre Plastic Lasers... by JoshDM · · Score: 5, Funny

    ... with our plastic consuming bacteria!

  9. Two words... by naoursla · · Score: 4, Funny

    Shortly after earning my bachelors degree from an unnamed college in the Northest, one of my parent's friends took me aside at a party and gave me a recommendation for a successful career. His advice consisted of two words: plastic lasers.

    I didn't listen to him then but I believe him now.

    Also, I slept with his wife.