Tag Archives: Lithium-ionBatteries

A123 Systems becomes America’s latest EV battery maker to file for bankruptcy

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A123 Systems becomes America's latest EV battery maker to file for bankruptcy

Having been riddled with setbacks, including a major recall of faulty batteries supplied to Fisker Automotive, Michigan's favorite EV battery maker A123 Systems has filed for bankruptcy. It has also announced the sale of its main business units to rival Johnson Controls in a deal pegged at $125 million -- a sad fraction of the billion dollars it raised since it launched in 2001 (not least from government grants). It seems that neither fresh lithium ion innovations nor a potential deal with Chinese investors were able to keep the company out of the red, which leaves A123 on the road to nowhere -- right behind that other DoE-sponsored hopeful, Ener1.

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A123 Systems becomes America's latest EV battery maker to file for bankruptcy originally appeared on Engadget on Wed, 17 Oct 2012 06:22:00 EDT. Please see our terms for use of feeds.

Permalink Technology Review India, The New York Times  |  sourceA123 Systems  | Email this | Comments

NC State nanoflowers can boost battery and solar cell capacity, make great prom accessories

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NC State crafts nanoflowers that boost battery and solar cell capacity, would make great prom accessories

We see a lot of sleek-looking technology pass through our doors, but it's rare that the inventions could be called beautiful by those who aren't immersed in the gadget world. We'd venture that North Carolina State University might have crossed the divide by creating an energy storage technology that's both practical and genuinely pretty. Its technology vaporizes germanium sulfide and cools it into 20-30 nanometer layers that, as they're combined, turn into nanoflowers: elegant structures that might look like the carnation on a prom dress or tuxedo, but are really energy storage cells with much more capacity than traditional cells occupying the same area. The floral patterns could lead to longer-lived supercapacitors and lithium-ion batteries, and the germanium sulfide is both cheap and clean enough that it could lead to very efficient solar cells that are more environmentally responsible. As always, there's no definite timetable for when (and if) NC State's technology might be commercialized -- so call someone's bluff if they promise you a nanoflower bouquet.

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NC State nanoflowers can boost battery and solar cell capacity, make great prom accessories originally appeared on Engadget on Thu, 11 Oct 2012 20:37:00 EDT. Please see our terms for use of feeds.

Permalink North Carolina State University  |  sourceACS Publications  | Email this | Comments

Researchers create algorithms that help lithium-ion batteries charge two times faster

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Researchers create algorithms that help lithium-ion batteries charge two times faster

Researchers at the University of California San Diego have devised new algorithms that can cut lithium-ion battery charge times in half, help cells run more efficiently and potentially cut production costs by 25 percent. Rather than tracking battery behavior and health with the traditional technique of monitoring current and voltage, the team's mathematical models estimate where lithium ions are within cells for more precise data. With the added insight, the team can more accurately gauge battery longevity and control charging efficiency. The group was awarded $460,000 from the Department of Energy's ARPA-E research arm to further develop the algorithm and accompanying tech with automotive firm Bosch and battery manufacturer Cobasys, which both received the remainder of a $9.6 million grant. Wondering if the solution will ever find its way out of the lab? According to co-lead researcher Scott Moura, it'll see practical use: "This technology is going into products that people will actually use."

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Researchers create algorithms that help lithium-ion batteries charge two times faster originally appeared on Engadget on Thu, 04 Oct 2012 23:07:00 EDT. Please see our terms for use of feeds.

Permalink EurekAlert!  |  sourceUCSD Jacobs School of Engineering  | Email this | Comments

LG Chem develops very flexible cable batteries, may leave mobile devices tied up in knots

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LG Chem develops cableshaped flexible batteries, may leave mobile devices tied up in knots

The world is no stranger to flexible batteries, but they've almost always had to be made in thin sheets -- that doesn't amount to a long running time if you're powering anything more than a watch. LG Chem has developed a flexible lithium-ion battery that's not just better-suited to our bigger gadgets but could out-do previous bendable energy packs. Researchers found that coating copper wires with nickel-tin and coiling them briefly around a rod results in a hollow anode that behaves like a very strong spring; mating that anode with a lithium-ion cell leads to a battery that works even when it's twisted up in knots. Join multiple packs together, and devices could have lithium-ion batteries that fit many shapes without compromising on their maximum deliverable power. Some hurdles remain to creating a production-grade battery, such as a tendency for the pack to shed a small amount of capacity whenever it's put under enough stress. LG Chem is fully set on turning these cable batteries into shippable technology, however, and could ultimately produce mobile devices and wearables that really do bend to their owners' every whim.

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LG Chem develops very flexible cable batteries, may leave mobile devices tied up in knots originally appeared on Engadget on Sun, 02 Sep 2012 16:03:00 EDT. Please see our terms for use of feeds.

Permalink   |  sourcePhys.org  | Email this | Comments

Georgia Tech develops self-charging battery that marches to the owner’s beat

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Georgia Tech develops selfcharging battery with laws of physics still intact

One of the last times we saw the concept of a self-recharging battery, it was part of a high-minded Nokia patent whose ideas still haven't seen the light of day. Researchers at Georgia Tech are more inclined to put theory into practice. Starting from a regular lithium-ion coin battery, the team has replaced the usual divider between electrodes with a polyvinylidene difluoride film whose piezoelectric nature produces a charging action inside that gap through just a little pressure, with no outside voltage required to make the magic happen. The developers have even thumbed their noses at skeptics by very literally walking the walk -- slipping the test battery under a shoe sole gives it a proper dose of energy with every footstep. At this stage, the challenge mostly involves ramping up the maximum power through upgrades such as more squeezable piezoelectrics. Georgia Tech hasn't progressed so far as to have production plans in mind; it's nonetheless close enough that we could see future forms of wearable computing that rarely need an electrical pick-me-up.

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Georgia Tech develops self-charging battery that marches to the owner's beat originally appeared on Engadget on Sun, 19 Aug 2012 04:28:00 EDT. Please see our terms for use of feeds.

Permalink   |  sourcePhys.org  | Email this | Comments

Korean carbon-coated lithium-ion battery could cut recharge times down to minutes

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Korean, carboncoated lithiumion battery could cut recharge times down to minutes

Anyone who's had to recharge an EV -- or, for that matter, any mobile device with a very big battery -- knows the pain of waiting for hours while a lithium-ion pack tops up. South Korea's Ulsan National Institute of Science and Technology has developed a conduction technique that could cut that charging time down to less than a minute. By dousing the nanoparticle materials of the battery in a graphite solution that's then carbonized, the researchers make a web of conductors that all start charging at once; current batteries have to charge towards the center slowly, like a not-very-edible Tootsie Pop. The immediate goal is to develop a secondary battery for an EV that could provide extra mileage in a matter of seconds. Here's hoping that the Ulsan team's fast-charging battery is more viable than others and spreads to just about everything -- we'd love to have EVs and laptops alike that power up in as much time as it takes to fill a traditional car at the pump.

[Image credit: iFixit]

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Korean carbon-coated lithium-ion battery could cut recharge times down to minutes originally appeared on Engadget on Wed, 15 Aug 2012 19:31:00 EDT. Please see our terms for use of feeds.

Permalink The Register  |  sourceYonhap News Agency  | Email this | Comments

A123 Systems’ new lithium ion tech keeps EV batteries cool, your wallet in check

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A123 Systems' new lithium ion tech keeps EV batteries cool, your wallet in check

EV battery maker A123 Systems has had a rocky history as of late following a Fisker battery recall, but it may just be turning the corner with a new lithium ion advancement. Nanophosphate EXT widens the temperature range that A123's lithium iron phosphate-based batteries can withstand before losing power: an EXT battery musters 20 percent more power than before when it's as chilly as -22F and can keep over 90 percent of its original capacity after 2,000 full charges, even if it's been run in a blistering 113F heat. The longevity has its obvious advantages for anyone who lives in an extreme climate, but it could also lead to cheaper EVs and hybrids -- the less cooling a car battery needs, the lower the up-front cost and the lighter the car gets. Full production won't start until the first half of 2013, though that's ample time for companies to at least think about slotting Nanophosphate EXT battery packs into 2014 or later cars such as the Atlantic.

Continue reading A123 Systems' new lithium ion tech keeps EV batteries cool, your wallet in check

A123 Systems' new lithium ion tech keeps EV batteries cool, your wallet in check originally appeared on Engadget on Wed, 13 Jun 2012 05:55:00 EDT. Please see our terms for use of feeds.

Permalink   |  sourceA123 Systems  | Email this | Comments