Nanopillar Solar May Cost 10x Less Than Silicon 199
Al writes "A team of researchers from the University of California, Berkeley, have developed a new kind of flexible solar cell that could be far cheaper to make than conventional silicon photovoltaics. The cells consist of an array of 500-nanometer-high cadmium sulfide pillars printed on top of an aluminum foil — the material surrounding the pillars absorbs light and releases electrons, while the pillars themselves transport the electrons to an electrical circuit. The closely packed pillars trap light between them, helping the surrounding material absorb more. This means the electrons also have a very short distance to travel through the pillars, so there are fewer chances of their getting trapped at defects and its possible to use low-quality, less expensive materials. '"You won't know the cost until you do this using a roll-to-roll process," says lead researchers Ali Javey. "But if you can do it, the cost could be 10 times less than what's used to make [crystalline] silicon panels."'"
That title makes me cringe. (Score:4, Insightful)
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Doubly Affirmative.
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Same here. The person should have said it could cost 1/10 as using current technology. Assuming current cost is for this example $1.00 per unit. The current expression would be 100/100 (when expressed in cents). Anything compared to that can be expressed as a fraction. If they can produce it for 90 cents then you can express it as 90/100 or 9/10. The way he phrased it sound like they will give you 10x the cost to make the product.
I see this all of the time and I keep trying to correct people, but, th
Re:That title makes me cringe. (Score:4, Interesting)
The only way "ten times less" makes any sense is when you're talking about three costs.
A is expensive! B is much more efficient, and costs half as much. C is even more efficient than B - ten times less expensive than A, compared to B.
Otherwise, when you only have two things to compare to one another, just say that "B is one tenth the cost of A."
Why is this so damn hard for people to process? If they could just think about it, they'd save me ten times the typing.
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"10x Less"? Is that like "twice as cold"
Maddening, isn't it?
I like to nitpick as much as the next guy, but I didn't blink at that title. A survey of readers would find that everyone one of them knew what the author meant. Consider it as shorthand for "Nanopillar Solar May Cost Less Than Silicon By A Factor Of 10"
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> but I didn't blink at that title.
Thats because your thinking process is so horribly compromised by those who don't think at all that you are starting to understand them just as parents understand baby gibberish.
Correct this unfortunate nonsense everywhere you see it. Its not just technical shorthand, its fundamentally wrong.
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If you had trouble with the title though, here's some help... "less" is some constant variable representing the "new cost" that when multiplied by 10 equals the "old cost".
silicon.cost = 10 * lesser.nanopillar.cost
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I was err.. 'guilty' of this myself once (in an old /. post, I said something was ten times lighter - as in weight).
I don't see much of a problem at all. 10 times slower = 0.1 times as fast. 10 times lighter = 0.1 times as heavy etc. etc. It's pretty intuitive.
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I'm having trouble processing what that means -- are you saying that C costs 1/20 what A does? Or 1/10?
Furthermore, none of that makes sense unless you accept the concept of "N times less" as stated in the headline in the first place.
I really don't see the problem, in fact. If "N times more" is acceptable, then surely "N times less" must be, too.
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"10x Less"? Is that like "twice as cold"?
Couldn't it reasonably be assumed he's saying "a factor of ten less" i.e. {current_cost}*0.1 ?
Re:That title makes me cringe. (Score:4, Funny)
But if you go making reasonable assumptions in a socially correct manner then you can't express your nerd rage properly.
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It could be assumed.
It can not be reasonably assumed.
Is it twice as dark with the lights off, or 100 times as dark?
Re:That title makes me cringe. (Score:4, Funny)
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(Which is a phrase I never understood. If two things are different in the same way, aren't they not different but instead similar?)
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Same difference.
(Which is a phrase I never understood. If two things are different in the same way, aren't they not different but instead similar?)
It's an oxymoron pun (often shortened to "same diff"), derived from "same thing". It's generally understood to mean "any differences are inconsequential", applying a loosening to the meaning of "same". See also: "agree to disagree".
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What is 5 - 2? What is 132 - 129?
In both cases, the differences are the same: 3.
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Even better is how the cells "create electrons". All we need now are cells to create protons and neutrons, and solar powered replicators will be on the market in no time!
(TFA reads "creates free electrons", also a misnomer, should read "frees electrons")
OK, if we really want to get OCD... (Score:2)
Maybe a more accurate title would be:
As of the writing of this article, the monetary manufacturing cost in the US, including labor and materials, of Nanopillar Solar may be lower by a factor of 10 than that of current Silicon based solar technologies.
Too bad the title line is only 50 characters. And I still made a lot of assumptio
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Silly Slashdotter! How are we going to be insufferable pedants that way?
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Actually, the important word in the title is "may".
Bets that patents will be used so you only save 5% over the cost of panels using other technology? Anybody?
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Arrrrgh NO! "10x Less" is the important phrase because it renders the sentence meaningless.
If something costs $1, then "10x Less" is $-9.
I am pretty sure they are not going to pay people to take these devices.
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Arrrrgh NO! "10x Less" is the important phrase because it renders the sentence meaningless.
I've been reliably informed by my auto salesman that the windows on this new car I'm looking at are 30% more transparent.
Great news! (Score:2, Insightful)
Re:Great news! (Score:5, Interesting)
Re:Great news! (Score:4, Funny)
Just think one day we can grow massive "pillars" in the earth, and these "pillars" can sequester carbon and be powered by the sun as they grow. Then as they reach a certain height and are no longer as efficient as they once were, we can take them down and use them as fuel. We can then plant new pillars to grow and use the by products from old burnt "pillars" to help the new ones grow. Perhaps then if we properly manage these "pillar farms" and modify the "pillars" just right we can have them absorb more carbon from the air than they release when burned for fuel.
Perhaps, but is that technology "green"?
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*whoosh*
Re:Great news! (Score:5, Interesting)
Not [wikipedia.org] really [wikipedia.org], surprisingly [ecogeek.org].
Growing plants for fuel is far, far more destructive and less efficient than just turning the solar energy directly to electricity and operating off of that.
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Your selection of links suggests an assumption that such a fuel source needs to be fertilized and irrigated. I think most people recognize at this point that such feedstocks won't be economically attractive, and are looking towards things like algal biodiesel and cellulosic ethanol.
What sort of surplus of fertile farmland with ample rain do you think we have sitting around waiting to be farmed? And even algae biodiesel is dwarfed in terms of vehicle miles per acre by solar + EVs (plus, it's basically hydro
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Re:Great news! (Score:5, Funny)
Just think one day we can grow massive "pillars" in the earth, and these "pillars" can sequester carbon and be powered by the sun as they grow. Then as they reach a certain height and are no longer as efficient as they once were, we can take them down and use them as fuel. We can then plant new pillars to grow and use the by products from old burnt "pillars" to help the new ones grow. Perhaps then if we properly manage these "pillar farms" and modify the "pillars" just right we can have them absorb more carbon from the air than they release when burned for fuel.
But then we'd have these "pillars" all over the place and would not be able to see the forest for them.
Re:Great news! (Score:4, Informative)
Fan, Zhiyong, Haleh Razavi, Jae-won Do, Aimee Moriwaki, Onur Ergen, Yu-Lun Chueh, Paul W. Leu, et al. "Three-dimensional nanopillar-array photovoltaics on low-cost and flexible substrates [nature.com]." Nature Materials advanced online publication (July 5, 2009). http://dx.doi.org/10.1038/nmat2493 [doi.org].
One of the cool things is that this new process results in a flexible photovoltaic. In the paper they show that efficiency is maintained even after repeated bending of the material. Even if the energy collection efficiency is lower than conventional silicon photovoltaics, there are tons of applications for flexible photovoltaics, like having tents coated in the material (both for things like camping, but could also be hugely useful for the military, for temporary tents for disaster relief, and so on...), clothing that generates power, and so on... (Maybe even fanciful things like kites that collect solar and wind power?)
It's not a commercial device yet (and oftentimes these kinds of lab devices just don't scale to mass production that well), but it's an encouraging step towards more robust solar cells, which would aid in the more widespread deployments of solar energy.
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No access here. I'm guessing the "pillars" are little quarter wave antennas, with a diode at the base, vaguely like a crystal radio but operating at light wavelengths instead of radio? A really old idea that has never been built (until now?)
In that case, why are the pillars so long? 500 nm quarter wavelength pillars work best with an optimum wavelength of 2000 nm.
Now, 2000 nm is way off in the invisible infrared.
http://en.wikipedia.org/wiki/Visible_spectrum [wikipedia.org]
I'm guessing in true journalist fashion, they re
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Re:Great news! (Score:5, Informative)
Later in the paper they discuss the light-absorbing properties of these kinds of pillar arrays:
References 13,18 are:
L. Tsakalakos, J. Balch, J. Fronheiser, B. A. Korevaar, O. Sulima and J. Rand "Silicon nanowire solar cells [aip.org]". Appl. Phys. Lett. 91, 233117 (2007). doi 10.1063/1.2821113 [doi.org]
Hu, L. and Chen, G. "Analysis of optical absorption in silicon nanowire arrays for photovoltaic applications [acs.org]". Nano Lett. 7, 3249-3252 (2007). doi 10.1021/nl071018b [doi.org]
Quoting from that second paper:
Essentially the nanowire arrays are acting as anti-reflection coatings and allowing the light to instead be absorbed.
I am f tired reading about cheap solar panals (Score:5, Insightful)
for last 5 years same shit gets posted over and over again - Cheap solar panals
5 years later - in some cases panels went up in price
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I hope that at least one of these technologies will pan out finally, but in the meantime I'm hedging my bets and looking at other forms of energy as well.
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Solar panels are nice, but if they require rare metals to function, that's not so nice.
Personally, I'm looking at building a Sterling engine with a parabolic mirror and running water. It may not be the most efficient thing you can build, but it can be built with low tech tools, common materials and will last damn near forever...
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http://www.sandia.gov/news-center/news-releases/2004/renew-energy-batt/Stirling.html [sandia.gov]
it's an old article - and still waiting for it to happen - would love to see it happen..
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Thanks - hadn't seen that one yet.
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I'm hoping for solar panels that don't require rare metals. Long term, it might trade our dependency on oil for depending in some area that is hostile for something like palladium or platinum.
The best would be something made out of silicon or carbon completely. Perhaps an efficient solar panel made out of silicon coupled with a good lens that might be just the thing that makes solar panels cheap, durable, and efficient enough to reach critical mass.
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Re:I am f tired reading about cheap solar panals (Score:4, Insightful)
for last 5 years same shit gets posted over and over again - Cheap solar panals
Umm... No. The price to produce them has gone down and is in fact the lowest it has ever been.
It is just that the demand is outstripping supply [azcentral.com] so economics is causing a price increase.
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Photovoltaics are for rich dummies (Score:2)
Most of our electricity is used for the creation or movement of heat. Which is spectacularly dumb and inefficient.
e.g.
http://ducts.lbl.gov/calducts.htm [lbl.gov]
Solar thermal panels can be up to 90% efficient. The vacuum tubes work in cold and cloudy climates. The energy they displace will directly reduce electricity generation costs, reduce CO2 emmissions and they are far far far cheaper than photovoltaics.
For cooling look at evaporative cooling or simply pumping the heat into a local river or ocean... Most of Calif
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For cooling look at evaporative cooling or simply pumping the heat into a local river or ocean... Most of California's cities are sited near the Pacific... Yet air conditioning is the single largest consumer of electricity, by far.
Well, yes, our cities are near the Pacific... but Downtown Los Angeles is some 15-20 miles from the ocean, and the LA River, while it is recovering its riparian habitat these days, is hardly up to taking on any significant amount of waste heat. You're talking about *maybe* being able to cool a few beach hotels this way... and that would probably have a detrimental effect on near-shore habitats.
Re:I am f tired reading about cheap solar panals (Score:5, Informative)
for last 5 years same shit gets posted over and over again - Cheap solar panals
5 years later - in some cases panels went up in price
Whine whine whine. It's been going on for much longer than 5 years. When I was in 5th grade, I did a report on PV electricity, and I read numerous reports that PV panels could be much cheaper soon.
Truth is, all those funky predictions were right. Solar power HAS been dropping very steadily and very predictably all along [frozennorth.org] in its own version of Moore's law - PV prices drop about 6% per year per watt, cutting in half every 10.5 years. It's not dropping like a stone, but it's very predictable and very steady.
What's been going on the last 5 years? Simple: supply and demand. For many reasons, people have become wary of using fossil fuels and are willing to invest more into solar, causing a sudden, worldwide deficiency in production capacity. Low-cost production companies like Nano-Solar [nanosolar.com] are ramping up production literally as fast as they are physically able.
For example, Nano-Solar has, for all intents and purposes, unlimited funding, and has already sold out several years worth of production, even that which is not actually happening yet. They are buying huge rafts of warehouse space in the Bay Area, in what used to be automotive manufacturing areas.
So the laws of supply and demand are working their magic, even though the response isn't instant. Your children will bask in a society powered by cheap solar electricity that you are funding right now, just as you benefit from the electrical power infrastructure built by your parents.
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Sure. Ridiculous.
Ridiculous, like covering 40% of your average city with ugly, black, heat-island-creating road tar? (Which, btw, could conceivably eliminate your "ugly solar farm" argument entirely [autobloggreen.com])
You don't realize just how much of a city is parking lot until you see it from the air at low altitudes. Google maps helps, but it's just not close because you don't really get the sense of scale. So it's a double-benefit: Parking lots create power, and by putting solar panels above them, keep your car at a comf
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Cadmium ... (Score:4, Interesting)
Look at the toxicity of cadmium and all the environmental regulations that come with it. It's regulated to 1/10th the level of mercury in the EU RoHS (Reduction of Hazardous Substances in Electronics) legislation.
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Because you first get the technology to work with whatever chemicals you can.
Then you find environmentally-safe alternatives.
Creation of Electrons (Score:3, Funny)
Wow, creation Ex Nihilo or from other subatomic particles? That is powerful technology.
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One of the atoms turns to the other and says, "Hey! That atom stole an electron from me!"
The second atom says, "Are you sure?"
"I'm positive!"
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Based on recent history... (Score:3, Insightful)
Don't tell me. It'll be ready for mass production in 3 to 5 years. Somehow, I seem to remember stories like this from more than five years ago, and still, nothing happens and the solar cells are more or less the same as always.
Re:Based on recent history... (Score:5, Informative)
Don't tell me. It'll be ready for mass production in 3 to 5 years. Somehow, I seem to remember stories like this from more than five years ago, and still, nothing happens and the solar cells are more or less the same as always.
Don't be a universal cynic, inform yourself instead. Look up Nanosolar [wikipedia.org] and First Solar [wikipedia.org] on Wikipedia, and you'll see that they have been already mass-producing panels at one-third of the price of crystalline silicon panels for a year or two.
"Nothing happens" is only true if you close your eyes to all the things that actually do happen.
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Don't tell me. It'll be ready for mass production in 3 to 5 years. Somehow, I seem to remember stories like this from more than five years ago, and still, nothing happens and the solar cells are more or less the same as always.
Don't be a universal cynic, inform yourself instead. Look up Nanosolar [wikipedia.org] and First Solar [wikipedia.org] on Wikipedia, and you'll see that they have been already mass-producing panels at one-third of the price of crystalline silicon panels for a year or two.
"Nothing happens" is only true if you close your eyes to all the things that actually do happen.
You accurately answered half of the posts about this story with this comment. It's true - we can go buy this stuff (which was 3-5 years away 3-5 years ago) right now.
Re:Based on recent history... (Score:5, Informative)
Surprise, there are already [nanosolar.com] companies [firstsolar.com] that are producing thin-film solar panels for less than $1/watt.
The problem is that demand is so high for these inexpensive cells that at least for Nanosolar, you can't even buy them unless you are buying tons and tons of them. That leaves First Solar and those panels get significantly marked up because of the lack of competition at the low end of the market.
That said, wholesale prices of traditional silicon panels are around $3/watt and as an end user you can get them for slightly above that if you shop around.
But once the system is installed you're looking at a minimum of $6/watt currently. So while the panels are still the most expensive part of the system, pretty soon the other components (inverter, mounting hardware, wiring, labor) will exceed the cost of the panels.
We're getting very close to the point where solar systems make financial sense for just about everyone. It already makes sense for any high electricity users who pay a premium for electricity. We'll probably see solar system pricing continue to drop over the next couple years as manufacturing capacity continues to come online.
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[Insert joke of galactic proportions here]
Conspiracy buffs rejoice! (Score:4, Funny)
Once you install these on your roof you will only need to wear your tinfoil hat when you are outdoors.
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Nanopillar Solar May Cost 10x Less... (Score:2, Funny)
I've got a nanopillar for you that costs... no wait, that sounded much better in my head. Um, nevermind.
Correct cheesy pickup line (Score:2)
"may" cost less (Score:4, Insightful)
Nanopillar Solar May Cost 10x Less Than Silicon
...and then, it may not.
Solar Powered Tin Foilhat... (Score:2)
Come on do they really think we'll fall for printing solar cells on aluminium so we use them as tin-foil hats? We all know that in reality this is just a government plot to subvert the tin-foil hat movement and convert the hats into powerful mind-reading devices powered by the rays of the sun.
Evil I tell you, evil.
Yay, Its time again for Solar technology Bingo! (Score:3, Insightful)
Thats right folks - for every time you see the words "May", "Might Somday", "Could eventually", you get to cover a number.
Bonus if you get to catch one or more instances of "In 5 years", "with continued funding", or "commercial quantities"
It seems the only people making flexibles these days are also selling them for a huge markup, and the technology is a lot less efficient than the monocrystal cells. But at least you can buy it. Today.
I used to actually follow up these articles by contacting the companies involved, and asking when they would be able to sell to me as a consumer. I still cant buy any of their products. Any of them.
Low cost until scarcity kicks in.... (Score:4, Interesting)
How plentiful is cadmium relative to silicon? Not so much, right? Isn't cadmium already pretty much spoken-for in other industrial and consumer electronics applications?
Leave it to engineers not to consider the ugly realities of supply-and-demand economics.
Re:Low cost until scarcity kicks in.... (Score:5, Informative)
How plentiful is cadmium relative to silicon?
Worldwide known reserves of Cadmium are about 490,000 metric tons, and production is about 20,000 metric tons/yr. Cadmium is generally recovered as a byproduct from zinc concentrates. Zinc-to-cadmium ratios in typical zinc ores range from 200:1 to 400:1. Estimated world identified resources of cadmium were about 6 million tons, based on identified zinc resources of 1.9 billion tons containing about 0.3% cadmium. The average annual New York dealer price of cadmium metal in 2007 was $7.61 per kilogram ($3.45 per pound).
The source of the silicon is silica in various natural forms, such as quartzite. Silicon is the second most abundant element (after oxygen) in the crust, making up 25.7% of the crust by mass. Word production of silicon is about 5.7 million metric tons/yr. The price for silicon ranges from $0.66 per pound for 75% ferrosilicon and $1.13 per pound for silicon metal.
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Leave it to engineers not to consider the ugly realities of supply-and-demand economics.
And leave it to random slashdot posters to not RTFA before posting bitchy comments:
The researchers also intend to try other semiconductor materials for the pillars and surrounding material. Javey says that the fabrication process is compatible with a wide range of semiconductors, and other combinations could up the efficiency.
Trying other semiconductor materials might also be important given cadmium's toxicity issues, Berkeley's Yang points out. Nevertheless, he says, "architecture is most important--materials we can continue working on. The beauty of this paper is the demonstration of how well the architecture works."
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Any other compounds they might try are likely to be based upon elements even more scarce than cadmium. Did you notice that only toxicity was mentioned as a justification, not scarcity? Gallium, indium... all the other choices are just as scarce or moreso. Silicon, by comparison, is the second most abundant element, and the amount produced each year is about the same as the total estimated reserves of cadmium.
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What makes you so sure that other semiconductors wouldn't include more common elements like silicon?
Re:Low cost until scarcity kicks in.... (Score:4, Insightful)
Moreover, I don't understand the pessimism of:
Leave it to engineers not to consider the ugly realities of supply-and-demand economics.
How else do we consider these ugly realities if not to study available materials, test the limits of what works and what doesn't, build prototypes, publish results, and work towards commercialization... ? Other materials may eventually be used in real devices (either after a period of using the relatively rare Cd and Te, or perhaps well in anticipation of those supply problems). Even if the device, as presented, doesn't mesh up with the realities of current supply-and-demand, it is part of the process of getting from a problem ('we need energy') to economically-viable solutions.
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Cadmium is used for red and yellow paints for artists, both oil and acrylic based paints. They're really bright yellows and reds, so the bright orange and yellow jackets road crews wear probably have cadmium pigments.
I wonder what color these cells are? Will everyone's roof be red in the future?
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Not too many. The cadmium will run dry before they can paint the whole town red.
Hard to estimate future cost (Score:4, Interesting)
There is a massive world-wide technology complex driving the optimization of silicon based manufacturing technology. The amount of capital invested into silicon manufacturing process and tools is measured in tens of billions of dollars per year, if not hundreds of billions. If the conventional process improvements is able to achieve 20-25% cost improvement per year, in five years, the cost of panels based on conventional panels would be down to 25-30% of today's cost. A few hickups in the development of the new technology like yield or reliability issues can easily delay the mass deployment by a few years which will negate all cost benefits. Not to mention the possibility of cadmium prices going up if the volumes are picking up...
And don't forget the cost of capital investment, which is already funded due to other "useful" applications in the silicon case. Most other technologies that tried to compete against silicon lost so far, not because of fundamental technical issues but because of the economics involved.
I am not against developing new innovative technologies to achieve substantial improvements in the solar power area. However, it is best to keep the optimism about new and unproven technologies in control until they reach at least beta production stage...
What about total installation cost? (Score:4, Insightful)
thieves are stealing solar panels now (Score:2)
cadmium is toxic (Score:2)
Cadmium is one of the "toxic heavy metals" {insert music pun here} and because of this, no matter what amount is used and to any degree of value, it will be shot down by the enviro-namby-pambys who took lead outta my solder.
Re:Wait a second (Score:5, Insightful)
This may have made it cheaper with this innovation, but what if no one wants it because power from coal is cheaper, more reliable, plentiful, and so on? Cap 'n Trade would change the market (not technology) to make this new technology (and others) more competitive in the marketplace. That's the idea anyway.
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Re:Wait a second (Score:4, Interesting)
If you don't like cap and trade, then what would you suggest should replace it?
The problem is that even though unregulated free markets are good in many situations, there are some situations where they make things worse, not better. Situations such as the Tragedy of the Commons [wikipedia.org] where individuals are sharing a limited resource. Some argue (correctly, I believe) that the reason free markets fail in these situations is that the cost of depleting the shared resource is not correctly accounted for. IMO the obvious solution is to tax the use of the shared resource in order to give it a realistic cost. But I suspect you would find taxation even more onerous than cap and trade.
So how do you propose we deal with the problem of limited shared resources? We will be facing more and more of these situations as long as we are stuck on this planet and if we simply ignore the problem and give free markets free rein then we will be no better than a bunch of lemmings rushing towards the cliff to their doom.
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I would say that the markets do correctly account for the total current, local cost. The issue is that the realization of the "total" cost is so far in the future (or so far away geographically) that the discounted present,local co
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Understand that a tax on carbon e
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A direct CO2 tax.
There's no need for all this pussyfooting around with setting up an artificial market to please the everything-must-be-a-market fetishists -- and enable the corporations to collect the revenues instead of the people. It's all intended to be Goldman Sachs's next bubble, anyway.
http://www.rollingstone.com/politics/story/28816321/the_great_american_bubble_machine/print [rollingstone.com]
nothing == suicide (Score:3, Insightful)
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But if you want to talk about letting the free market automagically deal with our limited fossil fuel resources, I suggest you take a look at Sustainable Energy - without the hot ai [withouthotair.com]
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Is it cheaper or not? Make up your mind.
If it's cheaper, it's more competitive. No communist-like government price controls needed.
Depends what you mean by "cheaper." The total costs of existing silicon-based solar panels are FAR lower than the costs of fossil fuel generation. However, the out-of-pocket costs are not, at least not in the short run. Those costs don't take into account the environmental damage of mining/drilling required to collect fossil fuels, the pollution they engender, or the eventual "cost" to society of being dependent on exhaustible resources.
Unfortunately, people (and the corporations that they make) are noto
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It would seem 1.7 million people on the internet would disagree with you.
http://www.google.com/search?hl=en&rlz=1T5GGLL_enUS269US269&q=%22times+less%22&aq=f&oq=&aqi=g2/ [google.com]
Even more if you include other phrases such as "times lower" (3.8 million results), "times smaller" (800k), "times slower" 350k.
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You can start ridding yourself of the marketing speak that's crept into the language by not using it.
Also, using your metric for validating language, 'I can haz' is now acceptable. 12.6 million results confirm it. http://www.google.com/#hl=en [google.com]
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I would assume that they'd have to pay you 9 times the cost of the silicon product.
Re:Oh Yeah!!! (Score:5, Insightful)
If it really was that good, then why would they talk about it after they prove the concept first...
You're absolutely right. From now on, all scientific research should be kept completely confidential until they have developed a product that is ready to ship. After all, there's no value to scientific knowledge; the only things worth talking about are consumer products.
Stupid git.
You are so wrong (Score:2)
You forgot about celebrity antics.
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the only things worth talking about are consumer products
You forgot about celebrity antics.
Hey, celebrity antics shouldn't be discussed until they've got definite proof-of-concept either. Or so says Jeff Goldblum's estate.
Jeff Goldblum's estate? (Score:2)
Did he die again?.
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