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討論 新聞 主題﹕Google綠能投資 首購風力發電廠
Google在官方部落格上發表聲明,已出資3880萬美金收購美國二座風力發電廠,這是Google首次直接投資於可再生能源發電廠。Google近年來致力於綠能發展,日前與綠色團體連署,寫信給美國總統歐巴馬,要求開放智慧電表的資訊於網路,方便民眾隨時查詢...

Only Chen
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發 表 於: 2010.12.08 05:24:43 PM
文章主題: Re: Google綠能投資 首購風力發電廠

Textured substrate increases efficiency of polymer solar cells by 20 percent

Researchers have created a process to produce a light-absorbing layer on textured substrat...

Researchers have created a process to produce a light-absorbing layer on textured substrates to improve the efficiency of polymer solar cells (Image: Jeremy Levine Design via Flickr)

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The idea of boosting the performance of solar cells by coating them with a textured substrate is commonly used in silicon-based cells. The idea is to traps more light so that it bounces around inside the cell instead of reflecting back out, but for a number of reasons, attempts to use textured substrates in polymer solar cells have failed. Now researchers from Iowa State University and the Ames Laboratory have developed a process of producing a thin and uniform light-absorbing layer on textured substrates that improves the efficiency of polymer solar cells by 20 percent.

Previous attempts to use textured substrates in polymer solar cells have proven problematic because they require extra processing steps or technically challenging coating technologies. Some attempts produced a light-absorbing layer with air gaps, a too-thin layer over the ridges, or a too-thick layer over the valleys. These issues resulted in a loss of charges and short-circuiting at the valleys and ridges, which in turn led to poor solar cell performance.

By getting the substrate texture and the solution-based coating just right, the researchers were able to produce a textured substrate pattern consisting of flat-topped ridges less than a millionth of a meter high. The result is a polymer solar cell that captures more light within those ridges – including light that’s reflected from one ridge to another. The cell is also able to maintain the good electrical transport properties of a thin, uniform light-absorbing layer.

According to Sumit Chaudhary, Iowa State assistant professor of electrical and computer engineering and an associate of the Ames Laboratory, tests indicated that the team’s light-trapping cells increased power conversion efficiency by 20 percent over flat solar cells made from polymers. Tests also indicated that light captured at the red/near infrared band edge increased by 100 percent.

 

 

This isn’t the only breakthrough in light-trapping technology for solar cells we’ve seen recently. In September, researchers at Stanford University reported that nanoscale solar cells with a patterned rough-surfaced layer could absorb as much as 10 times more energy from sunlight than predicted by conventional theory.

While there’s no word on when we can expect to see solar cells taking advantage of the Stanford University research, the Iowa State University and Ames Laboratory research could soon be headed to commercially available solar cells. The Iowa State University Research Foundation Inc. has filed a patent for the substrate and coating technology and is working to license it to solar cell manufacturers.

Details of the team’s fabrication technology were recently published online in the journal Advanced Materials.

(gizmag)

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Only Chen
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發 表 於: 2010.12.08 05:28:28 PM
文章主題: Re: Google綠能投資 首購風力發電廠

Scientists find natural photovoltaic cell in hornet, and copy it

 

An Oriental hornet, whose yellow and brown exoskeleton is able to turn sunlight into elect...

An Oriental hornet, whose yellow and brown exoskeleton is able to turn sunlight into electricity (Photo: Matti Paavola)

It’s no big mystery why turtles and other reptiles bask in the sun – being cold-blooded animals, they’re gathering heat to warm their bodies, so they can be active. Recently, however, scientists from Israel and the UK discovered that the Oriental hornet has been putting a “high-tech” spin on that model... the outer layers of its body work as a natural photovoltaic cell, converting sunlight to electricity. The scientists then proceeded to create a cell of their own, using the hornet as their inspiration.

The study was led by Dr. Marian Plotkin of Tel-Aviv University. It had been observed that the hornets’ underground nest-digging activity increased with the intensity of the sunlight, whereas most wasps tend to be more active in the early morning. This caused the late Prof. Jacob S. Ishay to suspect that the insects were utilizing solar radiation.

Plotkin’s team discovered that the secret lies in the hornets’ outer body shell, or exoskeleton. They found that the cuticle material making up the brown portions of the shell consists of an array of grooves, each one 160 nanometers high. The yellow parts of the body, however, are made up of cuticle material bearing a series of interlocking 50nm-tall oval-shaped protrusions, each one housing a pinhole-sized depression.

The antireflective brown material splits any sunlight that hits it into several diverging beams. These beams proceed into the cuticle, where they encounter a several-layer-thick sheet-like structure. Within each layer are rod-like structures embedded in a protein matrix, the rods made from chains of the polymer chitin. It is this complex structure that keeps the solar light beams trapped within the cuticle, bouncing between layers – the team noted that some man-made solar cells use a similar technique, in which light is bounced back and forth between layers of nanorods.

So, why the yellow? The yellow cuticle takes its coloration from the pigment xanthopterin, and it turns out that xanthopterin has the ability to change light into electrical energy. In other words, the brown areas trap the light, while the yellow areas allow it to be turned into energy.

To prove their theory, the team made a dye-sensitized solar cell, which used xanthopterin as a light-harvesting molecule. While it only had a conversion efficiency of 0.335 percent, it still did work, and could pave the way for further advances in the field.

The research was recently published in the journal Naturwissenschaften.

Via BBC Earth News

(gizmag)

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Only Chen
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發 表 於: 2010.12.08 05:31:06 PM
文章主題: Re: Google綠能投資 首購風力發電廠

World record efficiency for organic based photovoltaic solar cells

Konarka's flexible and lightweight Power Plastic

Konarka's flexible and lightweight Power Plastic

While they offer much lower efficiencies than inorganic photovoltaic cells, organic solar cells are cheaper to produce and are lightweight and flexible. This makes them suitable for a wider range of applications than rigid solar cells, including clothing and bags. Konarka has been producing its organic based photovoltaic (OPV) solar cells under the name of Power Plastic for a number of years now and the National Energy Renewable Laboratory (NREL) has just announced that Konarka’s latest organic based photovoltaic (OPV) solar cells have demonstrated a record breaking 8.3 percent efficiency.

While this is much lower than the over 40 percent efficiency record for inorganic photovoltaic solar cells, it is the highest performance recorded by NREL for an OPV solar cell. The record-breaking efficiency is for Konarka’s large area single-junction solar cell with a surface area of one square centimeter (0.155 square inch).

"The progress Konarka has achieved this year with regard to solar cell efficiency is unprecedented, representing a significant milestone for the industry," commented Howard Berke, chairman, CEO and co-founder of Konarka. "This unsurpassed NREL certification opens new doors for the commercial production of cost-effective, efficient electricity for numerous large scale applications."

Konarka’s Power Plastic is comprised of several thin layers; a photo-reactive printed layer, a transparent electrode layer, a plastic substrate and a protective packaging layer. It can be manufactured up to 60-in (152 cm) wide in virtually any length, and panels can be combined for greater output.

Konarka doesn’t produce consumer products integrating the Power Plastic itself, but makes the material for other companies to incorporate into their products. It is currently being used in products such as lanterns, backpacks, briefcases, and café umbrellas and is being tested as a component for windows and curtain walls. The new record-breaking efficiency could see Power Plastic appearing on an even wider range of products.

(gizmag)

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Only Chen
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發 表 於: 2010.12.09 11:00:45 AM
文章主題: Re: Google綠能投資 首購風力發電廠

自動駕駛之機器人公路火車技術

2010120819

為了讓自助出行更加便捷,不少公司都在開發自動駕駛技術,而谷歌公司則是公認的技術先鋒。現在,除了自動駕駛,另一種便捷的概念駕駛技術也進入了我們的視野,那就是機器人公路火車”技術。該技術若能實現,那麼一輛帶有導航功能,並由專業司機駕駛的“火車頭”引導汽車就可以借助通訊溝通,帶動自助加入“公路火車”行列的汽車向前行駛。除了“火車頭”汽車司機,其他的“車廂”汽車司機只要將駕駛系統與導航汽車互聯,就可以放心地讓汽車向前行駛了。當然,在到達目的地,或是需要切換路徑的時候,“車廂”司機可以自行切斷與導航汽車的聯繫,將車輛開出隊伍,十分方便。根據技術設計人員描述,一輛“火車頭”汽車可以拖掛,引導 6到8輛“車廂”汽車,而因為車隊是由專業司機領導駕駛的,那麼道路安全指數想必可以提高不少呢!

(Patent.cn)

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Only Chen
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發 表 於: 2010.12.10 12:05:57 PM
文章主題: Re: Google綠能投資 首購風力發電廠
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Only Chen
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發 表 於: 2010.12.13 11:38:53 AM
文章主題: Re: Google綠能投資 首購風力發電廠
檢視會員個人資料個人資料 回覆文章 回頂端

Tommy Chung
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發 表 於: 2010.12.15 10:54:04 AM
文章主題: Re: Google綠能投資 首購風力發電廠

台灣獨步全球 研發出9奈米超節能奈米記憶體

http://tw.news.yahoo.com/article/url/d/a/101214/135/2izah.html

 

 

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Only Chen
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發 表 於: 2010.12.16 10:51:33 AM
文章主題: Re: Google綠能投資 首購風力發電廠

The Best of Green Tech: Solar Cells

For every small step we take towards responsible living—buying eco-friendly light bulbs, and so on—there are gadgets that help us make giant leaps in our quest for sustainability. This week in our Green Tech series, we check out those little panels that do big things: solar cells.

The Best of Green Tech: Solar CellsAny kid who has ever tried to explode ants with a well-placed magnifying glass has a basic understanding of the mechanics behind solar cells (and, probably a need for some good kiddie therapy...but that's another story). Basically, as long as we've been basking in the light of Earth's yellow sun, we have been trying to find a way to harness its power. Archimedes supposedly defended Greece from Rome by using mirrors to focus light upon the Roman fleet's sails, causing them to burn and the boats to retreat. And certain Native American tribes used passive solar power to heat their homes—by building into the sides of cliffs or hills, they were able to store heat during the day and release it at night. However, it wasn't until 1883 with the invention of the solar cell that solar energy storage began to resemble its modern incarnation: the solar panel. Here are some of our favorite innovations, served to you sunny-side up!

Sunny With a Chance of Bad Politics

The Best of Green Tech: Solar CellsFor a while it seemed as if the 20th century would be the golden era (pun intended) of solar technology. From homes, to cars, to toys, the sun spread its rays wide as people experimented with a number of applications of solar power. Here is a stunning gallery from Life that includes an utterly otherworldly shot of a '50s "solar furnace" built on top of a 17th-century French fortress. Around the same time, the Eames brothers were designing the very practical and aptly named "Do Nothing Machine." This solar paneled whirlygig served no other function than to spin whimsically in the sun. And so it seemed like the solar panel's future was bright. That is, until the '80s when Reagan came in to the White House like a rain cloud, and tried to kill everyone's vitamin D buzz by tearing down the panels installed by the Carter administration.

Apparently, Solar Is the New Black

The Best of Green Tech: Solar CellsLeave it to the sun to, well, power everything, including remote controls, keyboards, and toothbrushes. They can even inspire the clothes we wear. Oregon's SolarWorld, the country's largest solar energy manufacturing plant donated a mess of black solar panels to designers who showed at Portland's Fashion Week, including Project Runway winner Seth Aaron Henderson, whose line would make Lady Gaga herself burn with envy. As for the future of solar tech, this company has invented a spray paint that can turn any window into a solar panel, Glaswegians considered floating "solar lily pads" down the River Clyde, and this Swiss guy thinks your dog should make itself useful by charging your cell phone on its afternoon jaunt.

That's it for our Best in Green Tech Series! Continued research in sustainable technology is the only way we can responsibly move into the next decade. GE has become a leader in developing and funding projects that help actualize a green future—so GE and its venture capital partners have made a $200 million commitment to invest in the best ideas to develop and deploy digital energy technologies. Head to the GE ecomagination challenge to check out the next great green ideas!

(gizmodo)

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Tommy Chung
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發 表 於: 2010.12.17 10:55:38 AM
文章主題: Re: Google綠能投資 首購風力發電廠

I-Green Thingy Charges Gadgets While You Ride a Bike

This concept device reminds me of that episode of The Simpsons where Bart tries to use the headlight dynamo to get some light when riding his bike at night, but the thing makes the bike so hard to pedal he can hardly move. The concept here is hopefully a bit easier to pedal. The gadget is called the I-Green and it has this fold out blue blades that get whacked by the spokes as the wheel spins.

Inside the green box, that whacking motion generates electricity that can be used to power up your gadgets like your phone or camera while you ride. I bet you get a cool motorcycle sound effect too as the thing goes around.

I wonder how well the charger would work. It’s been my experience that most devices that try to charge a battery or device with power harvested from motion do a bad job of it. I have a flashlight you shake for power. Apparently, for every one minute you shake it you get one second of light.

[via Yanko Design]

(technabob)

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Tommy Chung
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來自: 美加
文章: 1102

發 表 於: 2010.12.17 11:00:04 AM
文章主題: Re: Google綠能投資 首購風力發電廠

落實節水 「水計算器」有iPhone版免費下載

http://tw.news.yahoo.com/article/url/d/a/101216/1/2j4ni.html

 

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Tommy Chung
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來自: 美加
文章: 1102

發 表 於: 2010.12.17 11:11:55 AM
文章主題: Re: Google綠能投資 首購風力發電廠

在近日舉辦的東京環保產品環保產品2010年)展上索尼公司展示了這款新型的太陽能玻璃它實際上是一種可以將太陽能轉換為電能的染料敏化太陽能電池與傳統的樣式單一的太陽能電池最大的區別是這款新產品可以根據用戶的需要製作成帶有不同的顏色和花紋的樣式最大程度地滿足客戶的差異化需求同時帶有花樣的太陽能玻璃也可以起到非常好的美化裝飾作用使用前景非常廣闊

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