Nanotech Solar Cell Minimizes Cost, Toxic Impact 95
bonch writes "Researches at Northwestern University have developed an inexpensive solar cell intended to solve the problems of current solar cell designs, such as high cost, low efficiency, and toxic production materials (abstract). Based on the Grätzel cell, the new cell uses millions of light-absorbing nanoparticles and delivers the highest conversion efficiency reported for a dye-sensitized solar cell."
Oh neat! (Score:5, Insightful)
More ground-breaking world-changing solar technology that will neither break ground or change the world because it will never make it to the consumer.
Re:Oh neat! (Score:4, Informative)
Actually, with the rise of the electric car, renewable electricity is directly lined up against oil in a HUGE way!
Sometimes thinking clearly needs a minute or two to kick in
Re:Doesn't help (Score:4, Insightful)
The sun shines all day - when my car is in the underground car park - at work.
So home Solar and electric cars don't work together in any useful way.
Electric cars have a long way to go before they can replace combustion engines but your post doesn't really mean anything. The solar cells don't have to be on the car.
Re:Doesn't help (Score:4, Insightful)
Why would this be up to the company? There's still a grid out there. Maybe we just need more options for feeding it.
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You've apparently never heard of grid-tie solar. The idea is to have solar panels on roofs everywhere, feeding excess power into the grid during the day, when demand is high. So if you plug your car into the wall at work, the power might well be coming from solar panels, and certainly *can* come from solar panels.
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what's not to like about having your car charge in the work carpark all day so you can cruise around all night?
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In fact as i have said before if you REALLY want to change the USA in a big way its not electric cars, its a "people's car" that gets 40MPG+ (if its diesel so it can be run on bio fuels so much the better) that comes in at under $10k. If you look up the stats you'll see the average age of a car on the road now is 11 years and the average MPG is barely 20, so by doubling that and at the same time making it cheap enough most of the working poor could afford one (and if you were to offer a cash for clunkers deal then, again so much the better) you could toss all those big gas hogs practically overnight and cut way the hell down on our need for oil.
The only way to meet that price point is to abolish all the safety and environmental regulations that make new cars so obese and expensive. (Do I REALLY need a catalytic converter in North Dakota?) The fuel economy standards are what killed off the station wagon and pushed people into SUVs. Right now you can buy 4 seater dune buggy's that cost $8,000 new. Slap on another $1,500 to $2,000 in bodywork so it is completely enclosed for bad weather and you might be able to pull it off for $10K. Something like
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Well I just use the 10k number as a starting point, as I said one could sell it and use a cash for clunkers (or offer special government financing for the poor to get the hogs off the road) that would bring a 15k car into the realm of even those on minimum wage.
Our main disagreement between you and I on this seems to be the method to help the poor have cars. If you only make $8 an hour, you are too poor to be even considering buying a new car. That is not cruel, that's just reality. The LAST thing you would want is the government foisting debt onto the poor. In my view, the way you get those gas hogs off the road is not by having the government blow more money, but by making new cars cheaper to the middle class so those cars exist in greater abundance on the used
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My friend's 1982 Honda Accord got 42 mpg. Today's Accord, even the hybrid ones, are still below that. Did you know that in 1910 an electric car, running on lead-acid batteries, had the same range as today's Leaf electric car? The problem
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So i'm sorry but electric cars are horseshit, just a big giant money pit.
The problem is that we're trying to make an electric version of a vehicle that is highly inefficient to begin with. Why does a 75kg person need a 1800kg vehicle to get to the shops and back? If it really came down to it, *most* of us could get by with an electric bicycle.
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How does solar power compete with oil? I can understand coal, wind, nuclear, and hydro, but oil?
You need to think a little more clearly on this topic.
There are still oil powered electric plants... Hmmm?
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You're right, no improvements to solar panel technology ever reach the market. That's why the cost of solar power has been in freefall for several years.
No wait, I forgot, it's all the Chinese, right? They flooded the market SO HARD that it broke the space-time continuum and made solar prices fall even before they entered the market at all!
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For whatever it may (or may not) be worth to an anonymous coward that apparently failed entirely to get the point of my statement, I actually am *opposed* to the currently restrictive and self-destructive import tariffs the US has been placing on exported Chineese solar panels. I'm sick of the pissing contests and the vapor ware. I just want more cost-effectively cheap solar panels and frankly I long ago stopped caring where they even come from. I don't necessarily speak for my other US brethren, but I w
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You are a short sight ass. You would make great CEO material.
The expensive part of solar is the installation.
I suspect you lack the financial acumen to look 20 years down the road. Again see my first statement.
But you keep ranting about your short sight misconceptions on the Internet, I'm sure looking like an idiot will help you're case.
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Come on. I'm serious here. Certainly you've got a better counter-argument than "if you can't afford a solar panel array that takes 20 years to pay for itself you don't deserve one."
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Anything that pays for itself in 20 years can be paid for on time. There are companies forming around this very idea today. You buy the panels, install them at someone's home, and they pay you monthly for the panels. You deduct interest and depreciation, and suddenly the panels cost a lot less than they did. The only sad thing is that this can only be done by businesses—private individuals can't write the panels' depreciation off as a business expense.
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No it can't. Let me introduce you to an idea from economics. Suppose you have some resource, any resource. It costs 200 kAh (kilo-ampere-hours) to place, and pays 10 kAh per year in useful capacity.
At moment 0, you're down 190 kAh, and you've got to wait 40 (! not 20) years to build another. If you're useful lifetime is 20 years, it's essentially useless and merely exposes the owner to a large amount of risk with no actual benefit.
You see the problem (I'm using kAh instead of dollars to make it clear that y
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Amp-hours? That's not a measure of energy consumed. You must have meant watt-hours. So suppose you have a solar panel, which costs 200KWH to place, and pays for that energy consumed in four years. Then after 20 years, it has generated five times as much energy as it consumed on installation. So if you amortize its cost over 20 years, without any tax deductions, at, say, 5% interest, then you have to pay 2.4KWH per month. And for the life of the solar panel, you get back 4KHW/month. Your net pr
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And if you could borrow watt-hours from some magical source, that would be a great way to think about it.
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I own stock in several Canadian oil and gas companies that all pay more than a 5% cash dividend. (One has an 11% dividend because I bought it at an undervalued price.) The stock going up or down from month or month doesn't matter to me, what matters is the dividend yield relative to what I paid for those shares and what the company is doing to maintain or increase the dividend over the long term. One came out
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You are a short sight ass. You would make great CEO material.
By the way... Thanks! I'm totally putting that on my resume.
Re:Oh neat! (Score:4, Insightful)
Of course the expense in solar power is installation but we've proven that for middle and lower economic class citizens cost of entry is usually the barrier for most advances. Picture the advance of the automobile. At the turn of the 20th century most people used mass transit (both public and private) by the turn of the 21st century that was relegated to the poorest of our society only, yes, I know exceptions exist but fundamentally I am speaking about the vast majority of Americans that live outside of the Big-5 cities. The cost of covering most dwellings in the US is negligible compared to the power savings they would generate if the government subsidized the initial installation. As panels would wear out unevenly cost of replacement would become manageable for the average middle-class household. Single high quality panels are sub-$1000 and in my area are hovering around $5-600. That's a manageable cost compared to the 25K+ it can run to install. Thus it is simply a question of how do we get the entry barrier low enough to make the argument feasible. New construction would be an obvious choice as tacking 25K onto the asking price of a home already north of 150K is minimal considering the immediate savings gained. But currently built homes would need the most government initiative to make it function. I picture essentially the TVA done over. Incur the debt today to increase productivity tomorrow.
Then again replying to Geekoid is pretty much feeding a troll if his past comments are anything. He's a walking encyclopedia of stupid thoughts and insults laced together to appear pseudo-intellectual.
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$25k to install, WTF? Why does it cost so much? Seems like it should be possible to DIY if you have the electrical knowledge...
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Electricity is dangerous.
So you need to have it at least validated by a licensed electrition if you are in a municipality.
Also, if you don't set it up right, when power fails, you are sending power into lines which the technitions think are empty.
This requires a switchback circuitbreaker. Which means your entire house has to be brought up to code and costs (at last check) between $2k and $3k.
Do it yourself types can do a lot of the work but currently- all the panels I know require soldering (sp) - I think
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It was a general nice round number. Most of that cost is honestly the panels themselves. You told just buy 10 for a house, you buy more like 15-25 and then you're paying 5-10K for installation which is still fairly cheap for actual roof work on the scale it's being done at.
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"New construction would be an obvious choice as tacking 25K onto the asking price of a home already north of 150K is minimal considering the immediate savings gained."
I think you should run your numbers again. Adding $25K to a typical 30 year mortgage at 3.6% is going to add about $115 dollars to your mortgage payment per month and that number's already low because I'm assuming you have excellent credit and I'm not including the effect on your property tax.
What's the average electricity bill for an average
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Thank you for breaking down the numbers. If anything if you can afford a $1200+ mortgage the addition of of what amounts to less than 10% increase per month should be negligible for the household. On top of that if we built up the smart grid that funneled most of the excess residential electricity into offices during the day and then used smaller power plants or battery packs using the offices downtimes (early evening, early morning, weekends) to offset some houses may see a net gain as they sell their el
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"The expensive part of solar is the installation."
Hmm, I better go write someone a check because for my install because it was not the expensive part.
I laid out 50% of my install costs on the panels alone.
If you hire COMPETENT electricians you get it done quickly and no more expensive than having a generator put in.
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I've wanted to go solar for a long time.
Here's the problem.
Right now, given $40k, I can get a consistent, tax free, risk free return of $1,800. I'm getting that now in fact.
That's more than my electric bill.
Due to the drop in natural gas prices, 10 cfl bulbs, six LED bulbs, and some shopping around, my electric bill is down to $880 per year- and that's locked in for three years. That's in a climate that is over 90 degrees for about 100 days a year.
Right now, I've gotten a much bigger return from buying si
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It's not after inflation.
4.5% tax free municipal bonds which are A to AA rated come on the market at least once a week. You have to look at the municipality and do a reality check of course (I wouldn't be buying detroit bonds unless they were over 8%.. and probably not then!)
I avoid AAA rated. Insurance causes falsely high ratings.
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Having the most expensive electricity in the world according to wiki http://en.wikipedia.org/wiki/Electricity_pricing [wikipedia.org]
I am looking forward to getting my 20*250Wp panels installed next month.
Even with current prices, my installation will have paid for itself in 7 years, since I can use the grid as a "battery".
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No it made the rich CEO's of the few US solar companies whine like babies to Congress.
Wah, I cant afford a new Mazarati every 4 months! make the bad china people stop! WE cant let solar get to the point that the poor can afford it! WAH!
Yeah, I'm pissed as hell at the US cell and panel makers for being whiny bitches and refusing to compete.
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-Why is slashdot so anti-solar? I don't get it.
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It's not that we are against it. We are against subsidizing it. Many of us are in touch with reality and see that aside from limited situations it is not cost effective.
- over 20 years of amortisation 1 kWh solar costs around 16 cents. If you use most the solar generated electricity yourself, thats grid parity in most regions.
That's more than twice as expensive as what I pay for electricity here in North Dakota. Average price in the US is 12 cents per kWh.
You also don't mention that if you end up having to redo your roof halfway through, because you installed the panels halfway through its 20 year life, you destroy any cost savings. Unanticipated repairs ca
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That's more than twice as expensive as what I pay for electricity here in North Dakota. Average price in the US is 12 cents per kWh.
That is what I hear. But when I itemize my total tax bill I pay $5 fixed per month plus about 20 cents pew kWh. This with the bill saying I am paying 8 cents per kWh. There are other variable charges that bring in the other 12 cents.
Well then that is your own personal situation and by all means you should do what makes financial sense for you. For the majority of the country though, it doesn't. If it makes sense because of subsidies, expect people like me to be strongly against it.
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Try bitcoins.
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I would, but they haven't invented hardlight holograms yet! Perhaps I should write out the contents of my bitcoin encrypted wallet on some paper, and try throwing that?
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I suspect you were trying to be funny, but you can actually do that.
https://en.bitcoin.it/wiki/Paper_wallet [bitcoin.it]
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i keep throwing money at my monitor and nothing is happening
You get much better results when you throw your money at strippers.
Did whoever wrote the summary read the article? (Score:2)
He mentioned that this new solar cell design was intended to solve (among other things) the "low efficiency" of current designs.
According to TFA, the new design has a 10.2% conversion efficiency, as opposed to the 11-12% efficiency of the "Gratzel cell" it was supposed to improve upon.
It was further noted (in TFA) that traditional cells have up to 20% efficiency.
Re:Did whoever wrote the summary read the article? (Score:4, Interesting)
It's important to note though, that if you can make twice as much panel area for less money, then you are being more efficient.
At the end of the day they are aiming for two different efficiencies:
1. A lower $cost/output
2. A higher output/environmental-footprint ratio.
I've heard that currently the rule-of-thumb for Photo-Voltaic arrays is 4 years operation before they pay for themselves. Maybe this new technology will lower that significantly
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This is true, assuming you don't have a limit as to the area of panels you can deploy (rooftop solar installations are slightly limited by the area of the roof).
Note though that TFA specified high cost and low efficiency as problems solved by this design. In spite of the lower efficiency of the design, and without bothering to mention the actual cost at all...
In other words, lot
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This is true, assuming you don't have a limit as to the area of panels you can deploy (rooftop solar installations are slightly limited by the area of the roof).
I agree. If I gave them the benefit of the doubt (deservedly or not), I'd say that they are at least hoping to provide a cheap and environmentally friendly choice when space is not the issue.
In context I think they are working from this starting point: "the Gratzel cell is a great concept, but it leaks, so let's see if we can improve on it so it's viable for the mass-market."
If they succeed, at worst we'll have an "green" alternative to current Silicon-based PV arrays, and at best we'll have a system that's
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It's important to note though, that if you can make twice as much panel area for less money, then you are being more efficient.
The prices for PV panels are already low enough to start considering other factors. For instance: available area for PV panels installation - it starts to matter for "domestic solar energy producers" (my current situation now, having to decide what offer I should go with).
Re:Did whoever wrote the summary read the article? (Score:5, Informative)
The first part wasn't directly comparing the new cells to Gratzel cells. They said that solar cells *in general* suffer from problems like low efficiency, high cost, short lifetime, and toxic and/or rare ingredients. Most designs suffer major drawbacks in at least one of these areas.
This new cell seems to address all of the above, while giving reasonable 10% efficiency. In particular, it avoids costly and energy-intensive crystalline silicon, and the most obscure element they mention is cesium, which isn't all that rare.
If they really are able to cheaply stamp long-lived cells out by spreading an electrolyte solution between a couple of plates, it could indeed become a big deal.
Re:Is it just me (Score:4, Funny)
or every bit of news about solar arrays is pretty much the same - better efficiency, lower cost. I'm getting tired of reading the same thing every week.
To each his own...
Sometimes I think every bit of news about linux is pretty much the same - new experimental gui that will solve its desktop penetration problem. I'm getting tired of reading the same thing every week. ;^) ;^)
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I like reading it, every time I hear this it means solar power is a little bit closer to being financially relevant to me.
Not bad, actually (Score:5, Informative)
Before we get a lot of comments saying "what's so good about this?" it's actually pretty interesting. I did some undergraduate research with dye-sensitized solar cells (and am currently a graduate student researching inorganic semiconductors) and the basic thing you hear is that if you can get an organic solar cell to 10% efficient, they will be viable because they're so much cheaper than inorganics. While this may be true, the problem with dye-sensitized cells is, like they say in the paper, that they degrade in a rather short period of time. I saw this first-hand doing research on them - we had to make sure our batches were kept in darkness while making them otherwise the solution would degrade in a matter of hours, and after they were made I believe they only lasted a few months. If you can make 10% efficient organic solar cells that will last as long as inorganic ones (typically 20-30 years), you have a very attractive alternative to brittle, expensive and often toxic inorganics. I didn't see in the paper how long their new cells are supposed to last but anything you can do to make it more stable is going to help.
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The Ti02 part has been known for at least a decade - the new bits are the CsSNI3 parts. IIRC many used platinum here instead.
I won't be rushing out to buy one yet (Score:5, Interesting)
There are three factors that must converge to make it economically sensible to go solar electric.
1). Grid parity. This is when the amortized cost of power from the solar electric system costs less than power off the local grid.
2). When the cost per KWH per year stops dropping so rapidly. A corollary of Moore's law applies.
3). Storage. We need a low cost & efficient power storage system. Flywheel, hydro, battery, even hydrolysis. Lightweight batteries or hydrogen fuel cells that could be swapped into the car would be best.
At the current technology curve, it should be here within a decade in the sunny parts of the world.
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You, sir (or madam) are a pessimist.
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(2) I don't know how much that factors in except psychologically. If going solar makes sense according to (1) then go for it. Yes, it will likely make even *more* sense next year, but that's a year the current system could've already been paying for itself. Prices need to be falling pretty fast to make that a good deal, especially now that the break even period is in the 5-10 year range.
It's much like buying a computer - yes, I could get an even better system cheaper next year, but that doesn't help me
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I am a Norton libertarian. http://www.barvennon.com/~liberty/index.html [barvennon.com] Rothbard (your citation) is not economical with words.
So far as I read he was concerned with pollution. CO2 aside, I suggest that governments should tax pollution to reduce it's incidence. Preferably at a rate that would cover the cost of cleanup. Regulation doesn't work: the miscreant just pays the fine and starts somewhere else.
As for grid parity. Read your electricity meter. Divide the billed amount by the KWH used. Look
Still needs work (Score:2)
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Until you discover the traditional Monocrystalline and Poly panels also will last 30 years and these have no proven longevity so you have to assume they will be dead in 5. Suddenly they have almost no value.
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You would think so, but if you can sell these for $10 instead of $100 people won't care than they generate half the power and last 1 year instead of 30. If people cared about quality Wal-Mart would have trouble pulling a profit.
Wrong, If people thought the quality of Wal-Mart products was unacceptable, THEN they would have trouble pulling a profit. Given the price, the quality is acceptable for most people.
"Quality" is relative. A $30 microwave may indeed only last 4 years and have a 5% defect rage compared to a $100 microwave that lasts 8 years and has a 1% defect rate, but the consumer may value the extra $70 more than the lower defect rate and longer lifespan and so choosing the $30 microwave is the correct choice. Not to m
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So you found an article that is against nano-technology on a website that is devoted to being against progress in technology.
Perhaps if you found a less bias source it would be taken more seriously.
What about longevity? (Score:2)
If it wont last 15+ years it's a failure.
Just like this thin film crap all over the place from china, works great but loses 40% of the output in 12 months and then slowly dies within 5 years.