I think the way we improve battery capacity in smartphones and cars will be to swap batteries for graphene capacitors. I've seen a couple of cool demos of these things, and they look awesome :)
In particular, think about the electric car - at the moment, they weigh much more than petrol counterparts because of all the batteries, and they have the rocket fuel problem of needing to accelerate all those batteries as well as the car and humans. If you can make the batteries out of carbon, even at the same volume they will be considerably lighter, and this alone will increase the range of EVs hugely! and, for free, you'll get the speedup in charge time. If manufacturing the things is as simple as using adapted DVD burners or paper presses, this lowers the barrier to adoption even faster. I'm really excited about this technology!
Not everyone wants a lighter car, since heavier survives a collision better. When I got my first car, my dad advised me to get a nice heavy one, in conjunction with a quick recap of momentum mathematics on why the heavier vehicle has more survivability in a collision. A while back, a young, female friend of mine who drove a surprisingly large SUV, said that her dad bought it for her so that she would be safe.
So, not everyone is going to see this as a positive selling point...
"it has a storage density that's right at the low-end of the range seen in lead-acid batteries" is this by volume or by weight? I would guess that the specific weight if the graphene version would be much lower than lead-acid, and if it is so and "the same" is by volume, this would be much more interesting for many applications.
The most interesting thing about capacitors, in my opinion, is that they can be charged extremely quickly. If you could recharge your battery in 30 seconds, it wouldn't actually need to last that long. Charging your batteries could be something you do a couple times a day, like going to the bathroom.
Charging quickly would be great, but having to do so frequently would be a pain.
You need access to a powerpoint, what if you are on a day trip?
Wherever people lay their head at night they'll almost always have access to a power socket and therefore 24 hours is the minimum acceptable duration a full charge should last.
Extremely quick discharge is probably more interesting, for a certain kind of interest. Near-instantaneous discharge of a couple of kJ into your skin (or wedding ring) would be pretty dramatic.
We've been following Moore's Law for decades now. What's really stopping us from a real mobile and internet-of-things revolution is a breakthrough in charge storage devices. I wonder how long until one of the many "new discoveries on X material to create new battery" can be practically feasible and marketable.
Moore's law actually helps battery powered devices too. As the switching elements get smaller they consume less power. The problem really is that we've at the same time increased our demands on the devices to the point where the gains were undone.
5 years ago cell phones had a longer battery life than smart phones do today.
If you read any green tech blogs, there seems to be a constant stream of battery breakthroughs in the lab. But why do they not materialize in commercial batteries? Li-ion has been stuck at about the same level for more than ten years.
I was trying to find some meta research on what fails with the commercialization of these technologies. There's probably hundreds of breakthroughs per year, or at least that's the impression you get. You'd think at least some of them could be scaled up in a relatively straightforward way. Or maybe it's just press release hype and the research hasn't been going anywhere for fifteen years...
And I'm just sitting here just waiting for some HN folk to tell me why this is farcical / never going to make to production. It's a lot quicker than reading the article and all getting my hopes up.
This is a nice result, I am hopeful it will hold up. There is a tremendous amount of cool stuff you can do with really high power density capacitors (besides weapons of course).
When I was putting the solar panels on my roof in 2003 I figured that if you had enough 'super caps' that you could build into your foundation then you could do a nearly off-grid low to no maintenance project. (Battery maintenance is a huge pain)
The other things you can do are things like smart phones you touch to a charger for a second to get another 8 hours of run time.
Super caps aren't right for homes. A home's power draw is relatively even (and so is solar charging), a super cap is for when the power draw or charge is very fast and very short.
[+] [-] tehwalrus|12 years ago|reply
In particular, think about the electric car - at the moment, they weigh much more than petrol counterparts because of all the batteries, and they have the rocket fuel problem of needing to accelerate all those batteries as well as the car and humans. If you can make the batteries out of carbon, even at the same volume they will be considerably lighter, and this alone will increase the range of EVs hugely! and, for free, you'll get the speedup in charge time. If manufacturing the things is as simple as using adapted DVD burners or paper presses, this lowers the barrier to adoption even faster. I'm really excited about this technology!
[+] [-] Aardwolf|12 years ago|reply
[+] [-] prewett|12 years ago|reply
So, not everyone is going to see this as a positive selling point...
[+] [-] boothead|12 years ago|reply
> One simple technique puts graphene capacitors on par with lead-acid battery. See why duracell hates this
Too much internet time I guess :-)
[+] [-] drcoopster|12 years ago|reply
[+] [-] danmaz74|12 years ago|reply
[+] [-] alwaysdoit|12 years ago|reply
[+] [-] weland|12 years ago|reply
[+] [-] barking|12 years ago|reply
You need access to a powerpoint, what if you are on a day trip?
Wherever people lay their head at night they'll almost always have access to a power socket and therefore 24 hours is the minimum acceptable duration a full charge should last.
[+] [-] moconnor|12 years ago|reply
[+] [-] sazpaz|12 years ago|reply
[+] [-] jacquesm|12 years ago|reply
5 years ago cell phones had a longer battery life than smart phones do today.
[+] [-] Gravityloss|12 years ago|reply
I was trying to find some meta research on what fails with the commercialization of these technologies. There's probably hundreds of breakthroughs per year, or at least that's the impression you get. You'd think at least some of them could be scaled up in a relatively straightforward way. Or maybe it's just press release hype and the research hasn't been going anywhere for fifteen years...
[+] [-] cranefly|12 years ago|reply
Tally ho!
[+] [-] ghayes|12 years ago|reply
[+] [-] ChuckMcM|12 years ago|reply
When I was putting the solar panels on my roof in 2003 I figured that if you had enough 'super caps' that you could build into your foundation then you could do a nearly off-grid low to no maintenance project. (Battery maintenance is a huge pain)
The other things you can do are things like smart phones you touch to a charger for a second to get another 8 hours of run time.
[+] [-] ars|12 years ago|reply
[+] [-] shameless_1|12 years ago|reply
http://en.wikipedia.org/wiki/Supercapacitor