New battery can recharge itself using sunlight

By Tuan C. Nguyen
From http://www.smartplanet.com/

 

A team of scientists are hoping to give those old school re-chargeable batteries a solar-powered makeover.
Mention solar technology to people and for many it still brings to mind big clunky panels housed at sprawling industrial facilities. But recent advances in solar cells has already allowed the technology to be miniaturized and integrated into a variety of everyday household products. Last year, the Japanese company Sanyo was honored with an IF Design award at the CeBIT technology conference for a developing a dual solar-powered light and USB charger. Now comes a battery prototype that can be recharged simply by being left out in the sun.
The researchers are calling their concept the Light Catcher, which is basically a photoelectronic battery comprised of tiny anti-reflective solar cells that soak up energy from the sun. A transparent encasing protects the battery while allowing sunlight to shine through. The batteries come in AA and AAA sizes and can be inserted into most portable electronics, anything from remote controls to toys. There’s also the option to power electronics using a 3.5mm jack.


The innovators behind the “Light Catcher” concept are Yung-Hsaing Chang, Ming-Shien Lin and Chang-Ting Lu. The team developed the batteries as an entry into this year’s iF Design awards, given out each year by the Hanover-based firm iF International Forum Design.

While miniaturized solar technology is still a ways from meeting the rigorous energy demands of many portable electronics like laptops and Smartphones, such advances are still quite promising. The amount of energy that can be tapped from sunlight is enormous considering that the current technology converts only a small percentage into use-able electricity.
Photo: Yanko Design

7 Coolest Features of the iPhone 4

By John Hudson
From: http://www.theatlanticwire.com/

Justin Sullivan/Getty Images

At Apple's developer conference in San Francisco, Steve Jobs unveiled his company's next generation smartphone, the iPhone 4. With over 100 new features, there's a lot to drool over. Here's what gadget geeks are most excited about:

• Pricing and Color Schemes Michael Bettiol at Boy Genius Report writes: "The iPhone 4 will be available in both black and white. The 16GB model will be $199 and the 32GB model will be $299. Both of these prices reflect the 2-year contract price with AT&T. Pre-orders for the US, UK, Germany, France, and Japan will commence on the 15th of June. June 24th is the big day as far as actual availability goes."

• It's Super-Thin, writes Agam Shah at PC World: "The iPhone 4 sports a new look and is the thinnest smartphone, [Jobs] said. At 9.3 millimeters (0.36 inches) thick, the new iPhone is 24 percent thinner than iPhone 3GS."

• 'You Can Bing It,' praises Miguel Helft at The New York Times: "No black eye for Google, but a win for Microsoft. Mr. Jobs announces that in addition to Google, which remains the default search engine, and Yahoo, which was already an option on the iPhone, iOS 4 will give users the option to use Bing for their searches."

• An Incredible Display Screen, notes Ed Oswald at Technologizer: "Another major feature is the 'Retina display,' Apple’s upgraded screen for the iPhone 4. The resolution comes in at 326dpi, which along with some software magic makes for clear, smooth fonts and more vivid images. Jobs said the resolution is actually higher than the human eye can see (exaggeration, perhaps?). Either way, Apple expects it to be 'years' before anybody matches this display."

• Video Chat and Camera Overhaul, details Matt Brian at The Next Web: "Steve Jobs has just announced that the iPhone 4 has been given a complete overhaul in the camera department, upgrading the 3MP camera on the 3GS to a 5MP LED flash enabled camera that has 5x digital zoom. The handset has a backside illuminated sensor, integrated so the imaging sensor can “get more light, enabling iPhone users to take better quality low-light photos. Pixel sensors have been kept larger instead of blindly increasing megapixels to improve picture clarity and quality... The iPhone 4 will be able to record full 720p HD video at 30fps with tap to focus, one-click sharing and the LED flash will stay illuminated to allow the recording of video in low-light situations. Instead of cropping videos on the iPhone 3GS, iPhone 4 owners will be able to edit HD video using….wait for it…….iMovie for iPhone!" On top of that, there's also video chat: "You can use the front or rear camera, so people can see what you are seeing. Portrait or Landscape. The app is called FaceTime. 'Apple will ship 10s of millions of FaceTime devices this year, so there will be lots of people to talk to.'"

• Chip and Battery Overhaul, writes MG Siegler at TechCrunch: "As expected, the iPhone 4 will use Apple’s A4 chip. The device also has a bigger battery than ever before. The combination of these two things allows for 40% better battery life in some situations, Jobs said."

• The Gyroscope, writes Jesus Diaz at Gizmodo: "The new iPhone 4 has a gyroscope built-in. This means that it can track movement with a very high precision, much higher than the built-in accelerometers in the previous iPhones. It's 3-axis, so it's capable of detecting pitch, roll, and yaw. Couple with the accelerometer, you have 6-axis motion sensing."

"Eco-Friendly" Mobile Phone Runs on Coke

by Lloyd Alter, Toronto  

From: http://www.treehugger.com/

Designer Daizi Zheng tells Rose at Dezeen that phone batteries are not very good- "it is expensive, consuming valuable resources on manufacturing, presenting a disposal problem and harmful to the environment."
So instead she designs a cell phone to run on Coke.

Now to be fair, fuel cells that run on sugar have been around for decades, and it can run on any sugary water, not just Coke. But if you are selling an idea as being environmentally friendly, why start with Coke?

The Designer writes:

The concept is using bio battery to replace the traditional battery to create a pollution free environment. Bio battery is an ecologically friendly energy generates electricity from carbohydrates (currently sugar) and utilizes enzymes as the catalyst. By using bio battery as the power source of the phone, it only needs a pack of sugary drink and it generates water and oxygen while the battery dies out.

Bio battery has the potential to operate three to four times longer on a single charge than conventional lithium batteries and it could be fully biodegradable. Meanwhile, it brings a whole new perception to batteries and afternoon tea.

More at Dezeen. and from the Designer's website.

An Exhaustive Guide to Saving Your Smartphone's Battery

By Kevin Purdy (Edit, to draft, Slurp)

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Modern phones come loaded with bright screens, fun games and apps, and connections for 3G, Wi-Fi, Bluetooth, and GPS. Not coincidentally, they're constantly out of juice. Here's some of the best collected wisdom about saving your web-connected phone's battery life.

Photo by [177].

Note: I've tweaked a few sections, added in submissions from commenters, and removed a woefully misguided idea about dark-themed backgrounds since this post was originally published. Thanks for the help and (occasionally) gentle hand slaps.

Universal battery tips

They're different in a lot of ways, but all smartphones can be made to be more frugal with their limited power reserves if you're willing to follow a few simple rules of thumb.

• Keep it cool and out of pocket: If you're outside, don't leave your phone facing the direct sunlight. If you can pull it off without looking like a hyper-aggressive real estate agent, belt-clip your phone, or generally keep it out of your pocket and away from close quarters with your body heat.
• Switch off 3G when it's unnecessary: It's faster than EDGE or GRPS and can deliver both voice and data in a continuous stream to your phone. It also uses up quite a bit more power. When you've got good coverage and plan to mostly talk, or just get occasional email updates, you don't need such wide wireless pipes. Switch to EDGE/2G usage in your settings, preferably with a widget or shortcut.
• Switch off any unneeded service: Goes without saying for anyone who's learned the hard way. Having your phone constantly look for new Bluetooth devices, Wi-Fi hotspots, GPS positions, and Exchange server emails that don't arrive at 4 a.m. will definitely kill your battery. Find the most convenient way your phone offers to turn these things off, or automate their use, and act on it.
• Be frugal with background applications and notifications: It feels like living in the future when new emails, Twitter messages, Facebook updates, calendar appointments, and other minutiae are delivered minute-by-minute to your phone. Your battery lives in the present, though, and could use a break from your hyper-awareness. If you've got a phone that can keep multiple applications "open" for quicker access (Android, Pre, Windows Mobile), don't feel obligated to keep them present.
• Fiddle with screen time-outs and brightness: Tweak how long your screen stays lit after a quick time check, modify how bright it must stay during the daylight, and you'll likely pull a bit more use time from your handset.
• Use mobile site versions: Find and bookmark the mobile versions of the sites you always visit (often found at m.sitename.com, mobile.sitename.com, or, occasionally, sitename.com/m), and keep tools like the Google Mobilizer and Bing Mobile handy; they'll automatically pare down a page to its basic elements, and save your phone from having to burn its battery pulling down giant banner ads. Using Google mobile search on some phones also presents an "Options" menu next to each result, which provides a "mobile" link for any page.

Photo by sarchi.

BlackBerry

If you're rocking a BlackBerry, chances are that disconnecting your network to save on battery life isn't an option. Instead, you might try a few of these tips. Photo by liewcf.

• RIM's official tips: To summarize: Close your browser with the ESC key when you're done surfing, use shortcuts instead of Java-based menus, get crazy with the extensive settings, and use the Desktop Manager (now available for PCs and Mac OS X) to load media, rather than have your phone resize and compress it all.
• Radio Saver and AutoStandby: Radio Saver turns off your phone's cell reception when coverage is spotty or non-existent, saving you from the dreaded drain of roaming for signal. AutoStandby, when it's on, drops your BlackBerry into a deeper standby state, rather than just sleep, if you'd rather get a bit more time from your phone than be constantly pinged. They're $2.99 each, which isn't cheap for a utility, but might be worth the coffee change if you're low on battery life or working on the edge of service.
• BBlight: This simple little app allows you to have your screen's backlight automatically turn off after a set period of time. Here's the direct over-the-air link. Thanks atomicrabbit!
• The Boy Genius basics: Straight from the BlackBerry-toting, news-breaking blogger behind the Boy Genius Report, the basics on keeping your phone alive:

  Turn down brightness of the screen, turn the LED off, turn Bluetooth off, Wi-Fi off (when not needed).

  Also, keep it in a holster, since it will "sleep" (when inside it)

  No silver bullets there, but sound advice—especially on the holster bit.

iPhones

Apple's game-changing, full-web-browsing phone has had its battery life detractors from the get-go. Luckily, some have put their efforts into fixing that. Photo by Mat Honan.

• Apple's official tips: To summarize: Don't get it too hot or too cool, turn off unnecessary services, "lock" it frequently, and let the battery run completely down, and then charge to 100 percent, at least once a month.
• Gizmodo's suggestions: To summarize: Change from Push to Fetch email, turn off contacts and calendar sync if you're not a CEO, cancel scanning for new Wi-Fi networks, and avoid games with vibration and 3D graphics (except in seriously long airport lines).
• Toggle networks with SBSettings jailbreak app: By default, the iPhone's on/off switches are tucked inside the settings, and the phone can only automate screen brightness. With SBSettings installed on a jailbroken phone (from the BigBoss repository), you can not toggle all your data connections on and off from a flip-down widget, and fine-tune other battery-grabbing aspects of your phone. See and read more about SBSettings at The Apple Blog. Thanks j_rich!
• Use the battery percentage indicator: The standard battery indicator can leave you guessing as to how healthy your iPhone actually is, and sometimes misreports its state entirely. If you've got a iPhone 3GS, or a jailbroken iPhone, you can enable a numeric percentage read on your lock screen by heading to Settings, General, and then Usage to toggle "Battery Percentage" to On.
• Use Prowl, GPush, or very light Push for Gmail: We first showed you how to use Prowl and Growl to push Gmail to your iPhone, and it remains a more battery-efficient means of getting important email notifications, particularly while your main work computer is running. We also detailed a work-around with GPush that works at any time—when it works, period. Since then, Gmail has added official push support for instant email notifications, but it also makes manual email fetching more reliable, so users can set it to an hourly or manual interval to save on battery use. Thanks drjonze and wbullockiii!

Android

The current crop of Android phones have almost universally crummy battery life. Luckily, the system's open platform has given app developers lots of leeway to squeeze every drop out of them. Photo by sugree.

• Automate your phone rules: When you're asleep, you want important calls to come through, but you don't need to check your email every hour. When you're at work, your screen doesn't need to be so bright, and you've already got net access. Using an app like Locale , you can make turning on and off your phone's most power-hungry features automatic, based on time of day, location, battery status, and other factors.
• Learn to love APNdroid: It's more severe, but APNdroid is also the most sincere battery saver out there. Click its app icon, and your EDGE/3G cell networks are turned off, while your basic call connection remains in place. That's better than Airplane Mode, which totally renders you inaccessible, and, used wisely, you'll definitely notice the difference when you start charging every other day. Better still, it seems a Locale plug-in is in the works, so turning off your wireless access when it's not needed could become a no-brainer.
• Keep the power widget handy: When your Android 1.6 (a.k.a. Donut) update arrives, you'll have a new widget available, "Power Control," that puts some important on/off switches—Wi-Fi, Bluetooth, GPS, auto-sync, and screen brightness—all on one horizontal strip. Keep it someplace handy on your home screen, and power down when you're at your most casual.
• See what's eating your juice: Also new in Android 1.6: A percentage Battery Use chart you can access under About Phone in your Settings. It shows what's been pulling in power since the last time you charged your phone, which can help remind you of background apps and other power drains.

Windows Mobile

Older than almost all its siblings, but Windows Mobile has grown to incorporate all the same battery-killing background powers as its brethren. Photo by Titanus.

• WMExperts' tips: To summarize: Avoid Wi-Fi whenever possible, dial down your email checking, and dig into your settings to modify screen time-outs and vibration frequency.
• WMLongLife: Basically, this independent app switches your phone from 3G service down to 2G when it's in standby mode, so background data grabs and non-essential pings drain less battery. The developer also states it has a beneficial impact on, erm, other functions.

Palm Pre

Everybody who digs the Palm Pre mentions its "deck of cards" multi-tasking and Sprint's seriously speedy data networks. Yeah, you guessed it—both require a little power precaution.

• Treonauts' battery tips: To summarize: Turn it off (or into airplane mode) when in very weak coverage, and follow the same kind of auto-check and background app recommendations made earlier in this post.
• Battery Saver: This homebrew app is only really useful if there are parts of the day where another phone provides you with emergency contact—like at home, if you have an alternate line. If that's the case, though, turning your phone to airplane mode at pre-set parts of the day gives you the advantage of a quick power-on or contact check, while also saving on battery life.

Lithium breakthrough could charge batteries in 10 seconds

A new version of lithium battery technology can either provide a higher storage density than current batteries, or can charge and discharge as fast as a supercapacitor, emptying its entire charge in under 10 seconds.

By John Timmer

Lithium-iron-phosphate particles.

It's getting difficult to overstate the importance of battery technology. Compact, high-capacity batteries are an essential part of portable electronics already, but improved batteries are likely to play a key role in the auto industry, and may eventually appear throughout the electric grid, smoothing over interruptions in renewable power sources. Unfortunately, battery technology often involves a series of tradeoffs among factors like capacity, charging time, and usable cycles. Today's issue of Nature reports on a new version of lithium battery technology that may just be a game-changer.

The new work involves well-understood technology, relying on lithium ions as charge carriers within the battery. But the lithium resides in a material that was designed specifically to allow it to move through the battery quickly, which means charges can be shifted in and out of storage much more rapidly than in traditional formulations of lithium batteries. The net result is a battery that, given the proper electrodes, can perform a complete discharge in under 10 seconds—the sort of performance previously confined to the realm of supercapacitors.

This appears to be one of those cases where applications badly lagged theory. Since lithium ions are the primary charge carriers in most batteries, the rates of charging and discharging the batteries wind up proportional to the speed at which lithium ions can move within the battery material. Real-world battery experience would suggest that lithium moves fairly slowly through most types of batteries, but theoretical calculations suggested that there was no real reason that should be the case—lithium should be able to move quite briskly.

A number of recent papers suggested that, in at least one lithium battery class (based on LiFePO₄), the problem wasn't the speed at which lithium moved—instead, it could only enter and exit crystals of this salt at specific locations. This, in turn, indicated that figuring a way to speed up this process would increase the overall performance of the battery.

To accomplish this, the authors developed a process that created a disorganized lithium phosphate coating on the surfaces of LiFePO₄ crystals. By tweaking the ratio of iron to phosphorous in the starting mix and heating the material to 600°C under argon for ten hours, the authors created a material that has a glass-like coating that's less than 5nm thick, which covers the surface of pellets that are approximately 50nm across. That outer coating has very high lithium mobility, which allows charge to rapidly move into and out of storage in the LiFePO₄ of the core of these pellets. In short, because lithium can move quickly through this outer coating, it can rapidly locate and enter the appropriate space on the LiFePO₄ crystals.

The results are pretty astonishing. At low discharge rates, a cell prepared from this material discharges completely to its theoretical limit (~166mAh/g). As the authors put it, "Capacity retention of the material is superior." Running it through 50 charge/discharge cycles revealed no significant change in the total capacity of the battery.

But the truly surprising features of the cell came when the authors tweaked the cathode to allow higher currents to be run into the cell. Increasing the rate by a factor of 100 dropped the total capacity down to about 110mAh/g, but increased the power rate by two orders of magnitude (that's a hundred-fold increase) compared to traditional lithium batteries. Amazingly, under these conditions, the charge capacity of the battery actually increased as it underwent more charge/discharge cycles. Doubling the charge transport from there cut the capacity in half, but again doubled the power rate. At this top rate, the entire battery would discharge in as little as nine seconds. That sort of performance had previously only been achieved using supercapacitors.

At this point, the authors calculate, the primary limiting factor is no longer storing lithium in the battery; instead, getting the lithium in contact with an electrode is what slows things down. The electrodes also become a problem because they need to occupy more of the volume of the battery in order to maintain this rate of charge, which lowers the charge density. That's a major contributor to the halving of the battery's capacity mentioned in the previous paragraph.

A more significant problem is that these batteries may wind up facing an electric grid that was never meant to deal with them. A 1Wh cell phone battery could charge in 10 seconds, but would pull a hefty 360W in the process. A battery that's sufficient to run an electric vehicle could be fully charged in five minutes—which would make electric vehicles incredibly practical—but doing so would pull 180kW, which is most certainly not practical.

Nature, 2009. DOI: 10.1038/nature07853

Is The MacBook's New Super-Battery Actually Cutting Edge?

| posted by Chris Dannen

The best new feature in Apple's [AAPL] new MacBook Pro is the 8-hour, ultra-durable battery that Apple says it custom-designed. But is it really the advanced powerplant it claims to be?

Conventional notebook batteries, or lithium-ion batteries, are made up of tightly-packed cylindrical cells, almost like a bunch of little Duracell Cs in a case. Apple has chosen to use lithium-polymer batteries in the new MacBook Pro, which are widely regarded as more advanced than li-ion batteries; they're lighter, more physically robust, more energy-dense, cheaper to manufacture and don't have to be in the traditional block form-factor.

Because li-poly batteries can be any shape, Apple smartly molded the new MacBook Pro's battery to the inside of its case, packing in a 40% "bigger" battery into the machine. That increase probably has as much to do with the physical size of the cells as the energy density of li-poly storage, which has helped Apple keep weight down. The MacBook Pro tips the scales at 6.6 pounds.

The new li-poly battery allows Apple to claim eight hours on a single charge, or seven with a beefier video card. Each battery should survive longer, too; Apple claims five years, or 200-300 full charges. That longevity owes itself to Apple's new "adaptive charging" system, which uses microchips inside the battery to determine the optimal level of current for each cell.

But put your ear to the ground in the battery community, and the buzz isn't about custom-shaped li-poly batteries, with or without "adaptive" charging. Companies like ZPower are already boasting huge improvements in silver-oxide batteries (also known as silver-zinc batteries), which have a much better energy-to-weight ratio than lithium-based batteries. You can see an animation of how silver-zinc batteries work here.

Not only are they 40% more energy-dense than lithium-based cells, silver-zinc batteries are 95% recyclable, and because they don't contain lithium, they're not prone to exploding and engulfing your precious notebook in flames. Apple's new li-poly battery, to its credit, is arsenic, BFR, mercury, and PVC free, and “highly recyclable,” according to the company -- but it's hard to beat silver for its green cred and safety.

The downside is that silver-based batteries are susceptible to the fluctuations of the price of silver, which has been on a rollercoaster ride since late 2005. [To see a graph of silver prices since 1992, courtesy of TheBullionDesk.com, click here.] That has rendered them useful only in small, if important, devices like the on-board computers inside self-guided weaponry.

But ZPower, for one, has said that it's gearing up to launch its batteries inside a "major notebook computer" this year, suggesting that some of the leakage problems that plagued early silver batteries has been solved. The company plans on using a trade-in recycling program to keep battery prices stable and manageable. California-based ZPower, whose backers include Intel [INTC], claims this will add two hours to the life of an average notebook battery, a jump from five hours to seven hours.

With its monster battery registering at welter-weight size, Apple is ahead of the pack for now. But should a competitor like Dell [DELL] or HP [HPQ] come out with a silver-ion battery in one of their 2009-2010 notebooks -- and should the price of silver fall -- all of Apple's custom in-house engineering might have been for naught.