Tag Archives: UCSD

Temporary Tattoo Lactate Sensor Turns Sweat Into a Source of Energy

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Temporary Tattoo Lactate Sensor Sweat Biobattery

If last year, scientists at UCSD created a temporary tattoo sensor capable of monitoring lactate levels, this time around the researchers are trying to demonstrate that the same sensor can be improved to turn sweat into the energy necessary for powering small gadgets.

Sweat is a common thing, at least during summer months, so a team of researchers at University of California in San Diego started wondering why exactly couldn’t this be used as a source of energy. I don’t want to be mean, but writing the previous phrase made by think at hundreds of people working out on stationary bikes in order to power some device. After all, this is exactly how 10 healthy volunteers tested out the sweat biobattery.

Wenzhao Jia, a postdoctoral student in the lab of Joseph Wang, D.Sc., at UCSD, explained that “The current produced is not that high, but we are working on enhancing it so that eventually we could power some small electronic devices. Right now, we can get a maximum of 70 microWatts per cm2, but our electrodes are only 2 by 3 mm in size and generate about 4 microWatts – a bit small to generate enough power to run a watch, for example, which requires at least 10 microWatts. So besides working to get higher power, we also need to leverage electronics to store the generated current and make it sufficient for these requirements.”

The idea itself is not bad at all, but the numbers need to be increased exponentially in order to make the sensor viable. Indeed, biobatteries such as this one recharge faster and rely on reusable sources of energy, but we can’t produce sweat all day long (well, that really depends very much on the climate). Knowing that there have been incidents of smartphone batteries exploding and hurting people, or simply leaking, I realize that there’s yet another advantage to this sweat biobattery.

This innovative concept also reminded me of an African woman’s project of turning urine into energy. I guess such things show just how inventive some people can be when it comes to generating energy using never-heard-before sources. Kudos to such people who aren’t afraid to experiment with unusual things!

Check out the following video to see in detail how the temporary tattoo lactate sensor is supposed to work:

Be social! Follow Walyou on Facebook and Twitter, and read more related stories about SmartDot’s fast-charging smartphone battery, and the Xtorm solar powered battery case for SGS4.

UCSD engineers develop mini wide-angle lens that’s ten times smaller than a regular one

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UCSD engineers develop mini wideangle lens that's ten times smaller than a regular one

What you see here, dear readers, is the image of a fiber-coupled monocentric lens camera that was recently developed by engineers from the University of California, San Diego. The researchers involved in the project say this particular miniature wide-angle lens is one-tenth of the size of more traditional options, such as the Canon EF 8-15mm f/4L pictured above. Don't let the sheer magnitude (or lack thereof) of this glass fool you, however: UCSD gurus note that the newly developed optics can easily mimic the performance of regular-sized lenses when capturing high-resolution photos. "It can image anything between half a meter and 500 meters away (a 100x range of focus) and boasts the equivalent of 20/10 human vision (0.2-milliradian resolution)," according to engineers. As for us, well, we can't wait to see this technology become widely adopted -- don't you agree?

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Source: UCSD Jacobs

Telescopic contact lenses magnify sight 2.8 times, turn wearer into cyborg

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DNP These telescopic contact lenses

Interested in upgrading your eyeballs? Well, a team of DARPA-funded researchers led by Joseph Ford of UC San Diego recently published a proposal for a new type of telescopic contact lens in Optics Express. Designed for people with age-related macular degeneration, the lenses are only 1.17mm thick and can magnify images up to 2.8 times. Their layered construction admits light near the outer edge of the lens, bouncing it across a series of tiny aluminum mirrors before transmitting it to the back of the retina, kind of like the origami-optics lens. Telescopic sight can be toggled on and off by using a pair of 3D glasses to switch the polarization of the central part of the lens. It sounds promising, but the lenses -- pictured after the break -- currently have some obstacles, like gas-impermeable materials unsuitable for long-term wear and sub-par image quality. Want to read more? Pop on your glasses and check out the full paper at the source link below.

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Via: Extreme Tech

Source: Optics Express (PDF)

UCSD’s robot baby appears, is happy, sad, a little creepy (video)

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UCSD's robot baby appears, is happy, sad, a little creepy

Development on the UCSD's Diego-san has been underway for several years and now the robot child is read for his first home movie. The bot is being constructed to better understand the cognitive development of children, with a camera behind each eye recording (and learning from) human interactions around it. There are 27 moving parts in the face alone and Diego-san is able to replicate a whole gamut of emotions -- and give us shivers as he does. We've got some unerringly realistic footage right after the break.

Continue reading UCSD's robot baby appears, is happy, sad, a little creepy (video)

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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."

Continue reading 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 originally appeared on Engadget on Thu, 04 Oct 2012 23:07:00 EDT. Please see our terms for use of feeds.

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