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Not Transparent Aluminum, But Conductive Plastic

Posted by Soulskill on from the see-through-power-generator dept.

michaelmalak writes "Scientists at the US Department of Energy's Brookhaven National Laboratory and Los Alamos National Laboratory have fabricated transparent, thin films capable of absorbing light and generating electric charge over a relatively large area. The material, described in the journal Chemistry of Materials (subscription required), could be used to develop transparent solar panels or even windows that absorb solar energy to generate electricity. The material consists of a semiconducting polymer doped with carbon-rich fullerenes."

8 of 96 comments (clear)

  1. Application: Skyscrapers by suso · · Score: 4, Insightful

    Sounds like this would be great for skyscapers, where you have huge windows all the way up and direct sunlight for long periods of the day.

  2. Coming soon by pooh666 · · Score: 4, Insightful

    to a manufacturer in China..

  3. tinted glass? by HungryHobo · · Score: 4, Interesting

    I assume they'd act like tinted windows since they'd be absorbing some of the light.

    car windows which gradually charge the battery perhaps?

  4. Apocalypse averted by Zerth · · Score: 4, Interesting

    Now when we run out of indium-tin oxide(or the chinese just stop selling it to us), we can still make LCDs, OLEDs, and EL wire.

  5. Re:The invisible man would be blind by Raleel · · Score: 4, Insightful

    the question is, transparent to what, really. If it's opaque to everything _except_ human-visible light, that's still a pile of the spectrum and of energy.

    --
    -- Who is the bigger fool? The fool or the fool who follows him? --
  6. Re:The invisible man would be blind by Bigjeff5 · · Score: 5, Informative

    It's transparent because the film has a hexagonal structure - extremely thin (and therefore transparent) at the center of the hexagon, thick (and therefore opaque) at the edges of the hexagons. The electricity is generated at the edges, as that is where the light is absorbed and that's where all the electrons are ready to be knocked off their molecules. It's not blocking certain wavelengths and allowing others through (well obviously to some degree it is, but not in the visible spectrum). It's blocking light in certain parts and allowing light through in others.

    It's basically going to tint the windows, how much will be determined by how densely the hexagons are packed - more hexagons means more electricity but also a darker tint.

    --
    Security is mostly a superstition... Avoiding danger is no safer in the long run than outright exposure. - Helen Keller
  7. Re:The invisible man would be blind by JustinOpinion · · Score: 5, Informative

    It's transparent because the film has a hexagonal structure - extremely thin (and therefore transparent) at the center of the hexagon, thick (and therefore opaque) at the edges of the hexagons.

    Actually it's a little bit more interesting than that. In addition to being thinner at the center, the light-absorbing polymer is not well-ordered (amorphous) in the center region, which leads to it being worse at absorbing light. At the edges of the hexagons, the polymer orders better, which allows it to absorb light more efficiently. This makes the structure more intelligent, in principle: if the honeycomb structure acts as one half of the conduction pathway (necessary for a photo-voltaic), then it makes sense to have the material close to it do the light-absorbing, and have the material further away (center of hexagons) which cannot participate in light harvesting, just be transparent. So this in principle allows one to design more efficient semi-transparent solar cells.

    Peeling back the layers of hype a bit, however, these kinds of solar cells are horribly inefficient. The best materials we currently have to make plastic solar-cells ("organic photo-voltaics") have pretty poor efficiency. Making a solar cell that's semi-transparent just makes the efficiency (per unit area) even worse. But, this is fairly fundamental research: by demonstrating that they can tune the light-absorbing capabilities of the polymer based on its ordering (and control ordering by using the honeycomb patterning and preparation parameters), this provides useful information about how to make higher-performance plastic solar-cells. So this research may actually end up being more important for conventional solar cells ('opaque') than it is for window-coating solar-cells or whatever.

    P.S.: The materials used in the paper have an absorption maximum at 503 nm (green), so they probably create a purplish tint. The absorption spectrum can be tuned to change the tint, however this will impact the solar collection efficiency.

    Disclaimer: Some of the co-authors are colleagues of mine. However I wasn't involved in this work in any way.

  8. The real action in solar by Animats · · Score: 5, Informative

    What's really going on in solar is that big US companies with real manufacturing expertise are moving in.

    • Dow Chemical is about to release solar shingles. "About to release" means "passed UL certification last week" and "volume shipments in 2011". Solar enthusiasts have blithered about solar shingles for a decade, but Dow actually solved all the real world problems, like the roof not leaking, the interconnect system being safe, and the installation being do-able by a typical roofer.
    • General Eletric is now active in solar. They make not only panels, but major parts you need to really get things done, like megawatt-sized inverters.
    • 3M now makes solar panels.

    This is where the action is. Solar is a heavy-manufacturing business, and it's the companies with experience in running big factories that are now taking over.