LinkBack URL
About LinkBacksRead more.Also (almost) transparent solar cells built into smartphone screen prototypes.
Read more.Also (almost) transparent solar cells built into smartphone screen prototypes.
Interesting - and crucially a different approach to Apples, which has been to use parabolic mirrors to redirect light to a PV panel under the screen, rather than placing it on top to let light shine through.
Either way I think this will be a really crucial technology in the next few years, and should fill the gap in smartphone battery life whilst we wait for better battery tech to become viable for consumer tech.
Hopefully this will bring in a range of phones you barely need to charge.
I want my nokia battery life back.
Most of the time my phone is in my pocket or on my desk. Neither of those places get much sunlight.
When I'm using it outside its usually pressed to my ear because I'm calling someone, or its exposed to the sun for about 30 seconds whilst I send a message.
I'm not knocking the technology, thats great. But I just don't see it actually being all that awesome from a practical standpoint.
Even when using my phone in the car for sat nav, the screen is facing me, not outside so again, not much light.
44% ? Never mind the phone, how much to roof my house ?
Society's to blame,
Or possibly Atari.
PV in phones is interesting and worth exploring but in reality I'd imagine most phones are only in sunlight a few minutes a day (and leaving your phone out in public for the sake of battery isn't wise). Nice in an emergency though.
Does the transparent screen need to be in direct sun light, or just natural light to function? If it's just natural light, then I suspect it wouldn't take much of a change of habit to see a difference in power usage.
How does 44% compare to existing commercial panels? Sounds a lot higher than I thought they were.
Exactly! Who cares about the stupid phones? With my 44%-efficient-solar-panel-covered roof I can charge all the phones I want! I can charge everything!Originally Posted by Phage
Man, I really want this technology.
I hear what your saying and agree - but - it would be nice to know if I'm out and about and have no access to power that I could charge/power it. Not sure why they can't just place the solar panel on the back of the handset mind!
Why not apply the solar panel to jeans and place a thin wireless charging plate in the material? Then, you're jeans, which regularly see direct sunlight, could charge your phone while you're walking.
It's great that they've improved the efficiency but as others have said, for most people it will probably only be beneficial in emergencies.
Edit:
Holy cow, 44 percent is over double that of the most efficient and currently available commercial panels.
Currently studying: Electronic Engineering and Artificial Intelligence at the University of Southampton.
44% sounds almost too good to be true. Wonder how much it costs though. There are various ways you can have a solar charger with you almost all the time (even easier if you regularly carry a backpack/bag), but the problem I have with the two I have tried is the efficiency. They take forever to charge to full (I was walking 10+h under the sun when I tested the last one), and I rather carry an extra batteries for the weight. If they can keep the price reasonable (I am not expecting them to undercut the el cheapos, but nor would I pay 3 digits for a small charger).
Turns out 44% isn't "too good to be true" just a general improvement from previous panels.
Solar cell Efficiency - Wikipedia
It will be interesting to see if this ends up as anything more than a gimmick - as others have said, how much bright light (i.e. useful amounts for a PV) does a phone screen realistically see? If it's placed on a desk for any length of time, you're probably at home/work, so what's so hard about plugging it in?
Also, making it more transparent means more light is passing through it i.e. not being absorbed by the PV cells? I can only assume they're trying to tune it for IR or something, but then that has problems with passing through glass.
Fifty Million Dollars.
The return on investment from solar panels is typically longer than their service life. The only reason to use them is government subsidies.
Those expensive phone/laptop chargers (and 'green' nonsense in general) make me laugh sometimes, often advertised as either money-saving or 'green'. First, you're not going to be saving an awful lot by charging the ~8Wh battery in your smartphone off-grid, and do any of these companies actually consider/explain the 'environmental impact' of producing and shipping the thing in the first place?
Bear in mind, even in the UK, electricity is in the ball park of 10-15p per 1000Wh. Assuming 80% efficiency, which is fairly reasonable, you get 10 charges per penny. You might break even after 50,000 charge cycles.
I think you mean fifty meeeeelion dollars ? </white cat>
I'm aware that current PV panels at ~20% efficiency are going to take >25years to break even. I got a bit excited at the prospect of (apparently) halving that number.
Given that the solar constant is 1.361kw/m2 x 40% for visible light = 544w/m2 at the equator.
That's a big-arse prize to shoot for.
Society's to blame,
Or possibly Atari.
There are currently 1 users browsing this thread. (0 members and 1 guests)
Posting Permissions
Reply With Quote
