Tag Archives: SolarCell

Researchers make unsuitable parts work as solar cells, could lead to cheaper panels

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Researchers make unsuitable parts work as solar cells, could lead to cheaper panels

Harnessing the power of the sun is a tricky business, but even the past few weeks have seen some interesting developments in the field. In this latest installment, researchers from the Lawrence Berkeley National Laboratory and the University of California have figured out a way of making solar cells from any semiconductor, potentially reducing the cost of their production. You see, efficient solar cells require semiconductors to be chemically modified for the current they produce to flow in one direction. The process uses expensive materials and only works with a few types of semiconductors, but the team's looking at using ones which aren't normally suitable -- the magic is to apply an electrical field to them. This field requires energy, but what's consumed is said to be a tiny fraction of what the cell's capable of producing when active, and it means chemical modification isn't needed.

The concept of using a field to standardize the flow of juice isn't a new one, but the team's work on the geometrical structure of the cells has made it a reality, with a couple of working prototypes to satisfy the skeptics. More of these are on the way, as their focus has shifted to which semiconductors can offer the best efficiency at the lowest cost. And when the researchers have answered that question, there's nothing left to do but get cracking on commercial production. For the full scientific explanation, hit up the links below.

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Researchers make unsuitable parts work as solar cells, could lead to cheaper panels originally appeared on Engadget on Sat, 11 Aug 2012 11:34:00 EDT. Please see our terms for use of feeds.

Permalink Ars Technica, ScienceDaily  |  sourceNano Letters  | Email this | Comments

Researchers create record-breaking solar cell, set bar marginally higher

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Researchers create record-breaking solar cell, set bar marginally higher

Solar cell development is typically a small numbers game, and a group of researchers at the University of Toronto have managed to eke out a few more percentage points in efficiency with a new record-breaking cell. Setting a high mark for this type of cell, the team's Colloidal Quantum Dot (CQD) film harvests both visible and non-visible light at seven percent efficiency, a 37 percent increase over the previous record. The breakthrough was achieved by leveraging organic and inorganic chemistry to make sure it had fewer nooks and crannies that don't absorb light. With the advantages of relatively speedy and cheap manufacturing, the technology could help lead the way for mass production of solar cells on flexible substrates. In the meantime, check out the source for the scientific lowdown.

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Researchers create record-breaking solar cell, set bar marginally higher originally appeared on Engadget on Sun, 05 Aug 2012 03:23:00 EDT. Please see our terms for use of feeds.

Permalink IEEE Spectrum  |  sourceUniversity of Toronto  | Email this | Comments

Inhabitat’s Week in Green: 3D printed boat, algae-based biofuel and a bus that does push-ups

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Each week our friends at Inhabitat recap the week's most interesting green developments and clean tech news for us -- it's the Week in Green.

Inhabitat's Week in Green: 3D printed boat, algae-based biofuel and a bus that does push-ups

The Olympic flame completed its tour through the UK this week as the 2012 Summer Games officially kicked off on Friday, and all eyes have been on London ever since. All week long we've been focusing on the Olympics, beginning with an overview of London's new Olympic Park, which is headlined by the Zaha Hadid-designed Aquatics Centre, and Anish Kapoor's controversial ArcelorMittal Orbit observation tower. For a deeper look at the venues that will be on display at the Olympics over the next two weeks, check out our roundup of the top six green buildings at the Olympics. In addition to the sports stadiums, Olympics visitors will also be treated to the sights and sounds of Coca-Cola's multi-sensory Beatbox Pavilion, an interactive sound and light display that responds to touch. But the art installation that we're most excited about is the one by artist David Cerny, who retrofitted a 6-ton London double-decker bus with a gigantic pair of human arms. Best of all, the arms are motorized, enabling the bus to do push-ups.

Continue reading Inhabitat's Week in Green: 3D printed boat, algae-based biofuel and a bus that does push-ups

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Inhabitat's Week in Green: 3D printed boat, algae-based biofuel and a bus that does push-ups originally appeared on Engadget on Sun, 29 Jul 2012 10:00:00 EDT. Please see our terms for use of feeds.

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UCLA creates transparent solar cell, dreams of current generating windows

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UCLA creates transparent solar cell, dreams of current generating windows

Transparent photovoltaics have yet to grace the face of your smartphone, but don't give up hope -- UCLA researchers are working on a new see-through solar cell that's showing potential. Using a new type of polymer solar cell, the team has been able to build a device that converts infrared light into electrical current. Current prototypes boast 4 percent energy conversion efficiency at 66 percent transparency -- not crystal clear, but certainly clean enough to peer through. According to a study in ACS Nano, the technology could be used in "building-integrated photovoltaics or integrated photovoltaic chargers for portable electronics." Translation? It could one day be used to build solar windows or better sun collecting smartphones. Don't get too excited though, the technology still has a ways to go before any of these dreams come to fruition. Still, feel free to head past the break for the team's official press release, or skip to the source to take in the full academic study.

Continue reading UCLA creates transparent solar cell, dreams of current generating windows

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UCLA creates transparent solar cell, dreams of current generating windows originally appeared on Engadget on Sun, 22 Jul 2012 03:16:00 EDT. Please see our terms for use of feeds.

Permalink   |  sourceACS Nano  | Email this | Comments

BAE Systems designs hard composite solar cells: could act as structure of UAVs, piece of soldier’s gear

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BAE designs hard composite solar cells could act as structure of UAVs, piece of soldier's gear

BAE Systems revealed that it's working on hardy, high-capacity solar cells that could power unmanned vehicles and even attach to an individual soldier's gear. According to Darren Buckle, a manager from BAE Systems' Advanced Technology Center, the cells are geared toward smaller, often airborne, military units, where weight is at a premium. The system, still in the development stage, could offer up power for heavy endurance unmanned air vehicles, provided the cells are made sensitive enough to absorb energy in less sunny situations -- something that the company's England-based engineers are currently contending with.

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BAE Systems designs hard composite solar cells: could act as structure of UAVs, piece of soldier's gear originally appeared on Engadget on Thu, 12 Jul 2012 17:45:00 EDT. Please see our terms for use of feeds.

Permalink   |  sourceDefense Tech  | Email this | Comments

All-carbon solar cell draws power from near-infrared light, our energy future is literally that much brighter

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Fully carbon solar cell can power up from infrared light, our future is literally that much brighter

What's this orange-like patch, you ask? It's a layer of carbon nanotubes on silicon, and it might just be instrumental to getting a lot more power out of solar cells than we're used to. Current solar power largely ignores near-infrared light and wastes about 40 percent of the potential energy it could harness. A mix of carbon nanotubes and buckyballs developed by MIT, however, can catch that near-infrared light without degrading like earlier composites. The all-carbon formula doesn't need to be thickly spread to do its work, and it simply lets visible light through -- it could layer on top of a traditional solar cell to catch many more of the sun's rays. Most of the challenge, as we often see for solar cells, is just a matter of improving the energy conversion rate. Provided the researchers can keep refining the project, we could be looking at a big leap in solar power efficiency with very little extra footprint, something we'd very much like to see on the roof of a hybrid sedan.

All-carbon solar cell draws power from near-infrared light, our energy future is literally that much brighter originally appeared on Engadget on Fri, 22 Jun 2012 05:52:00 EDT. Please see our terms for use of feeds.

Permalink   |  sourceMIT Technology Review  | Email this | Comments

Solid state solar panels are more affordable, say researchers, don’t leak

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http://www.engadget.com/2012/05/25/northwestern-university-solid-dye-solar-cell/

Researchers at Northwestern University have found one way to stop a leak: get rid of the liquid. A new variation on the Grätzel solar cell replaces a short-lived organic dye with a solid alternative. The molecular dye the solid substance replaces was corrosive, at risk of leaking and only lasted about 18-months -- by replacing it, researchers plan to pave the way for a more affordable (and less toxic) alternative. Northwestern's new design flaunts a 10.2-percent conversion efficiency, the highest ever recorded in a solid-state solar cell of its type -- but that's still only half of what traditional sun collectors can do. Researchers hope to improve conversion in the long run, but expect that the cost reduction alone will be enough to get the party going. It may not be the greenest solar technology we've ever seen, but who are we to judge?

Solid state solar panels are more affordable, say researchers, don't leak originally appeared on Engadget on Sun, 27 May 2012 12:42:00 EDT. Please see our terms for use of feeds.

Permalink Gizmag  |  sourceNorthwestern University  | Email this | Comments

Researchers create incredibly thin solar cells flexible enough to wrap around a human hair

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You've probably heard that the sun is strong enough to power our planet many times over, but without a practical method of harnessing that energy, there's no way to take full advantage. An incredibly thin and light solar cell could go a long way to accomplishing that on a smaller scale, however, making the latest device from researchers from the University of Austria and the University of Tokyo a fairly significant discovery. Scientists were able to create an ultra-thin solar cell that measures just 1.9 micrometers thick -- roughly one-tenth the size of the next device. Not only is the sample slim -- composed of electrodes mounted on plastic foil, rather than glass -- it's also incredibly flexible, able to be wrapped around a single strand of human hair (which, believe it or not, is nearly 20 times thicker). The scalable cell could replace batteries in lighting, display and medical applications, and may be ready to be put to use in as few as five years. There's a bounty of physical measurement and efficiency data at the source link below, so grab those reading glasses and click on past the break.

Researchers create incredibly thin solar cells flexible enough to wrap around a human hair originally appeared on Engadget on Wed, 04 Apr 2012 13:50:00 EDT. Please see our terms for use of feeds.

Permalink PhysOrg  |  sourceNature Communications  | Email this | Comments