Monday, February 25, 2013

Are Graphene Micro-Supercapacitors An EV Gamechanger?

Micro-supercapacitor-prv UCLA Photo

Energy density isn't the only reason why battery-powered cars have never caught on. As was highlighted in Tesla's somewhat less than successful media road trip, the amount of time it takes to fill batteries with electrons can be as significant a factor in the practicality of EVs as the amount of electrons those batteries can hold.

That's one of the reasons why high power capacitors, also known as supercapacitors or ultracapacitors, have held promise – caps can charge and discharge very quickly. That promise, though, has been held back by the old bugaboo of energy density. Capacitors unfortunately have limited capacity. Researchers at UCLA who had previously announced the almost accidental discovery of a simple and inexpensive method of creating graphene sheets, which have ideal properties for fabricating ultracapacitors, have now published the results of their further research, demonstrating a scalable process for fabricating flexible graphene micro-supercapacitors that have some of the highest energy densities achieved yet for such capacitors.

 

Click here to view the embedded video.

The team, led by Richard Kaner, is developing the devices out of one of those fortuitous discoveries that expands the frontiers of science, like penicillin or nylon. Maher El-Kady, of Kaner's lab, had invented an elegantly simple and inexpensive method of making graphene, a single atom thick sheet of carbon atoms arranged in that hexagonal latice that C loves so well. He poured out a layer of graphite oxide solution on a plastic substrate and then exposed it to laser light. The process wasn't the most clever thing about El-Kaner's discovery, it was the equipment that he used. El-Kaner's substrates were DVDs and he used a standard consumer grade LightScribe DVD burner for the laser. Refining the process, the team has now figured out a way to embed electrodes into the graphene, which is formulated over a flexible film, and they claim energy density comparable to current thin-film lithium ion batteries.

Often "scalable" means scaling up, but Kaner and El-Kady discovered that scaling down has advantanges. Miniaturizing the devices enhances charge storage capacity and charge/discharge rate and it also allowed them to produce more than 100 micro-supercapacitors on a single disc in 30 min or less. The flexible substrate allows for packaging options and the size means that they can be mounted on the back of solar cells or other chips.

As is always the case with potential energy gamechangers, the research team is looking for partners to produce their invention in industrial quantities. While the initial applications will likely not be for transportation, any development concerning electrical storage that combines enhanced energy density, faster charge/discharge rates, and lightweight miniaturization is bound to attract attention from the EV crowd.

UCLA press release here.

Ronnie Schreiber edits Cars In Depth, a realistic perspective on cars & car culture and the original 3D car site. If you found this post worthwhile, you can dig deeper at Cars In Depth. If the 3D thing freaks you out, don't worry, all the photo and video players in use at the site have mono options. Thanks for reading – RJS



from The Truth About Cars http://www.thetruthaboutcars.com




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