80% Efficient Solar Panel?! Works at Night?!

 This is pretty cool

The most expensive, carefully designed, and complicated solar panels in the world operate at about 40% efficiency. That means that, for every bit of sunlight that hits the panel, only 40% of it is turned into electricity.

Scientists think that this is just about as good as silicon panels can do and are now looking at ways to make it cheaper, instead of making them more efficient. But suddenly, from nowhere, comes Steven Novack of the Idaho National Laboratories with an inexpensive, foldable solar panel that may turn out to be up to 80% efficient.

The trick is nanotechnology. The surface of the material is printed with miniscule nano-antennae that capture infra-red radiation, the kind that the sun puts out in abundance, and is even available at night. Television antennas absorbe large wavelength energy, so in order to absorb ultra-small wavelength energy (photons) they had to create ultra-small antennas.

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A Green Energy Industry Takes Root in California

While interest in alternative energy is climbing across the United States, solar power especially is rising in California, the product of billions of dollars in investment and mountains of enthusiasm.

In recent months, the industry has added several thousand jobs in the production of solar energy cells and installation of solar panels on roofs. A spate of investment has also aimed at making solar power more efficient and less costly than natural gas and coal.

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Start-Up Sells Solar Panels at Lower-Than-Usual Cost

Nanosolar, a heavily financed Silicon Valley start-up whose backers include Google’s co-founders, plans to announce Tuesday that it has begun selling its innovative solar panels, which are made using a technique that is being held out as the future of solar power manufacturing.
The company, which has raised $150 million and built a 200,000-square-foot factory here, is developing a new manufacturing process that “prints” photovoltaic material on aluminum backing, a process the company says will reduce the manufacturing cost of the basic photovoltaic module by more than 80 percent.

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Google’s Next Frontier: Renewable Energy

SAN FRANCISCO, Nov. 27 — Google, the Internet company with a seemingly limitless source of revenue, plans to get into the business of finding limitless sources of energy. 

The company, based in Mountain View, Calif., announced Tuesday that it intended to develop and help stimulate the creation of renewable energy technologies that are cheaper than coal-generated power.

Google said it would spend hundreds of millions of dollars, part of that to hire engineers and energy experts to investigate alternative energies like solar, geothermal and wind power. The effort is aimed at reducing Google’s own mounting energy costs to run its vast data centers, while also fighting climate change and helping to reduce the world’s dependence on fossil fuels.

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Focusing Light on Silicon Beads

Placing tiny spheres of silicon in reflective trays could be the key to cheap, efficient solar cells.

A company in Japan has developed a novel way of making solar cells that cuts production costs by as much as 50 percent. The photovoltaic (PV) cells are made up of arrays of thousands of tiny silicon spheres surrounded by hexagonal reflectors.

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Scientists developing clean energy systems from micro-algae

An international consortium established by an Australian scientist is developing a clean source of energy that could see some of our future fuel and possibly water needs being generated by solar-powered bio-reactors and micro-algae while absorbing CO2.

Associate Professor Ben Hankamer, from the Institute for Molecular Bioscience (IMB) at The University of Queensland, has established the Solar Bio-fuels Consortium which is engineering green algal cells and advanced bio-reactor systems to produce bio-fuels such as hydrogen in a CO2-neutral process.

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Storing Solar Power Efficiently

Thermal-power plants could solve some of the problems with solar power by turning sunlight into steam and storing heat for cloudy days.

Solar proponents love to boast that just a few hundred square kilometers’ worth of photovoltaic solar panels installed in Southwestern deserts could power the United States. Their schemes come with a caveat, of course: without backup power plants or expensive investments in giant batteries, flywheels, or other energy-storage systems, this solar-power supply would fluctuate wildly with each passing cloud (not to mention with the sun’s daily rise and fall and seasonal ebbs and flows). Solar-power startup Ausra, based in Palo Alto, thinks it has the solution: solar-thermal-power plants that turn sunlight into steam and efficiently store heat for cloudy days.

“Fossil-fuel proponents often say that solar can’t do the job, that solar can’t run at night, solar can’t run the economy,” says David Mills, Ausra’s founder and chairman. “That’s true if you don’t have storage.” He says that solar-thermal plants are the solution because storing heat is much easier than storing electricity. Mills estimates that, thanks to that advantage, solar-thermal plants capable of storing 16 hours’ worth of heat could provide more than 90 percent of current U.S. power demand at prices competitive with coal and natural gas. “There’s almost no limit to how much you can put into the grid,” he says.

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Forecast for solar power: Sunny

Solar power has long been the Mercedes-Benz of the renewable energy industry: sleek, quiet, low-maintenance.

Yet like a Mercedes, solar energy is universally adored but prohibitively expensive for most people. A 4-kilowatt solar photovoltaic system costs about $34,000 without government rebates or tax breaks.

As a result, solar power accounts for well under 1% of U.S. electricity generation. Other alternative energy sources, such as wind, biomass and geothermal, are far more widely deployed.

The outlook for solar, though, is getting much brighter. A few dozen companies say advances in technology will let them halve the price of solar-panel installations in as little as three years. By 2014, solar-system prices will be competitive with conventional electricity when energy savings are figured in, Deutsche Bank (DB) says. And that’s without government incentives.

If that happens, solar panels would become common home and business appliances, says Brandon Owens of Cambridge Energy Research Associates.

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Silicon Nanocrystals for Superefficient Solar Cells

Research shows that silicon can wring two electrons from each photon of incoming light. 

A typical solar cell generates only one electron per photon of incoming sunlight. Some exotic materials are thought to produce multiple electrons per photon, but for the first time, the same effect has been seen in silicon. Researchers at the National Renewable Energy Laboratory (NREL), in Golden, CO, showed that silicon nanocrystals can produce two or three electrons per photon of high-energy sunlight. The effect, they say, could lead to a new type of solar cell that is both cheap and more than twice as efficient as today’s typical photovoltaics.

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Organic Solar Cell Breaks Conversion Record

Plextronics, Inc. announced yesterday that its organic photovoltaic technology achieved a world record in the conversion of solar light to power efficiency. The company’s result of 5.4 percent establishes a new world record for single layer organic solar cells as certified by the National Renewable Energy Laboratory (NREL), in Golden, Colorado.

-Blog Update-

I am adding new tags for everything notice the fancy “Organic Solar Cell” tag…

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