Engadget http://www.engadget.com Engadget http://www.blogsmithmedia.com/www.engadget.com/media/feedlogo.gif Engadget http://www.engadget.com en-us Copyright 2012 Weblogs, Inc. The contents of this feed are available for non-commercial use only. Blogsmith http://www.blogsmith.com/<![CDATA[Researchers develop battery boosting Power Felt, encourages you to sit on your phone]]>http://www.engadget.com/2012/02/26/researches-develop-battery-boosting-power-felt-encourages-you-t/http://www.engadget.com/2012/02/26/researches-develop-battery-boosting-power-felt-encourages-you-t/http://www.engadget.com/2012/02/26/researches-develop-battery-boosting-power-felt-encourages-you-t/#comments

For whatever reason, researchers have long been stuck on the idea of harnessing the wasted energy potential of the human body. We've seen our nation's brightest try to siphon power off of our spare body heat, our breath and even our blood -- we haven't been able to cast off our wall chargers just yet, but progress is being made. Today's no-socket wonder comes from Wake Forest University's Center of Nanotechnology and Molecular Materials, and it falls into the body-heat category. Power Felt, a new fabric-like thermoelectric device comprised of layers of carbon nanotubes and flexible plastic fibers, can create an electrical charge from temperature differences.

The Power Felt's layered nanotubes allow it to generate more electricity than standalone carbon nanotube / polymer composite films and, according to researchers, could add only $1 to the cost of a charging cell phone cover. "Imagine it in an emergency kit, wrapped around a flashlight, powering a weather radio, charging a prepaid cell phone," said project head David Carroll, "Literally, just by sitting on your phone, Power Felt could provide relief during power outages or accidents." The thermoelectric technology still has a long way to go before it's ready for the market, however, leaving the US military's technology savvy tailors hanging off the edge of their seats.

Researchers develop battery boosting Power Felt, encourages you to sit on your phone originally appeared on Engadget on Sun, 26 Feb 2012 11:11:00 EST. Please see our terms for use of feeds.

Permalink | Email this | Comments]]>carbon nanotubeCarbonNanotubechargingDavid CarrollDavidCarrollhuman poweredHumanPoweredpolymer composite filmPolymerCompositeFilmPower FeltPowerFeltSci/TechthermoelectricsWake Forest UniversityWake Forest University Center of NanotechnologyWakeForestUniversityWakeForestUniversityCenterOfNanotechnologySun, 26 Feb 2012 11:11:00 EST<![CDATA[Self-strengthening polymer nanocomposite works best under pressure]]>http://www.engadget.com/2011/03/27/self-strengthening-polymer-nanocomposite-works-best-under-pressu/http://www.engadget.com/2011/03/27/self-strengthening-polymer-nanocomposite-works-best-under-pressu/http://www.engadget.com/2011/03/27/self-strengthening-polymer-nanocomposite-works-best-under-pressu/#comments No one keeps carbon nanotubes down -- especially not these guys. The always popular allotropes have been enlisted by researchers at Rice University to create a composite material that gets stronger under pressure. When combined with polydimethylsiloxane, a rubbery polymer, the tubes form a nanocomposite that exhibits self-strengthening properties also exhibited in bones. During testing, the team found the material increased in stiffness by 12 percent after 3.5 million compressions. Apparently, the crew is stumped on why it reacts this way, but is no less eager to see it working in the real world -- discussion is already underway to use the stuff as artificial cartilage. And here we thought aerogel was cool. Full PR after the break.

Continue reading Self-strengthening polymer nanocomposite works best under pressure

Self-strengthening polymer nanocomposite works best under pressure originally appeared on Engadget on Sun, 27 Mar 2011 06:13:00 EST. Please see our terms for use of feeds.

Permalink | Email this | Comments]]>carbon nanotubecarbon nanotubesCarbonNanotubeCarbonNanotubesmaterialmedicinenanocompositenanocompositesnanotechnanotechnologyNASApolydimethylsiloxanepolymerpolymer nanocompositesPolymerNanocompositesPulickel AjayanPulickelAjayanresearchricerice univeristyRiceUniveristyself-strengtheningstrengthstrongSun, 27 Mar 2011 06:13:00 EST<![CDATA[Carbon nanotubes run into magical polymer, become 'tougher than Kevlar']]>http://www.engadget.com/2010/12/09/carbon-nanotubes-run-into-magical-polymer-become-tougher-than/http://www.engadget.com/2010/12/09/carbon-nanotubes-run-into-magical-polymer-become-tougher-than/http://www.engadget.com/2010/12/09/carbon-nanotubes-run-into-magical-polymer-become-tougher-than/#commentsMuch like graphene, carbon nanotubes seem to be hitting on all cylinders in the lab. Of course, we can count on one hand finger how many instances we've seen them making a difference in "the real world," but we aren't giving up hope just yet. Researchers from a cadre of universities have come together to solve one of the most nagging issues when dealing with carbon nanotubes -- in prior studies, the bundling of these tubes resulted in a marked decrease in strength, which in turn led to a profuse outpouring of tears. But thanks to a new approach, which mixes in a nondescript polymer, they've managed to conjure up a "a high performance fiber that is remarkably tough, strong, and resistant to failure." More specifically, the resulting material is said to be "tougher than Kevlar, meaning it has a higher ability to absorb energy without breaking." Notably, this material isn't stronger than Kevlar, as it's resistance to failure isn't quite up to snuff, but you can bet the gurus working on this won't stop until it is. And then, friends, we will have officially arrived in The Future.

Carbon nanotubes run into magical polymer, become 'tougher than Kevlar' originally appeared on Engadget on Thu, 09 Dec 2010 00:57:00 EST. Please see our terms for use of feeds.

Permalink | Email this | Comments]]>carboncarbon nanotubeCarbonNanotubeelectrodeskevlarmetalnanotechnanotechnologynanotubenorthwesternresearchSANDIAscienceuniversityThu, 09 Dec 2010 00:57:00 EST<![CDATA[Self-repairing solar cells could also fix our energy dependency]]>http://www.engadget.com/2010/09/07/self-repairing-solar-cells-could-also-fix-our-energy-dependency/http://www.engadget.com/2010/09/07/self-repairing-solar-cells-could-also-fix-our-energy-dependency/http://www.engadget.com/2010/09/07/self-repairing-solar-cells-could-also-fix-our-energy-dependency/#commentsSelf-repairing solar cells could also fix our energy dependencyIt doesn't take much for a photovoltaic cell to not work quite as well as it used to. Sure, a big hail storm or the like will do a number on your megabucks rooftop installation, but the sun itself, the very thing those cells are designed to capture, gradually damages their internals, reducing efficiency. The fix, according to a team at MIT, is self-assembling (and therefore self-repairing) solar cells made up of a synthetic molecular soup containing phospholipids that, when mixed with a solution, attach themselves to a series of carbon nanotubes for alignment. Other molecules that react with light then attach to the phospholipids and, with a little illumination, start firing out electrons like mad. After a few hours of solar pummeling the whole thing can be broken down and automatically re-created, returning efficiency to maximum. Overall efficiency of the system is extremely low currently, thanks to a low concentration of those photon-catching structures, but individually they capture about 40 percent of the light's energy, meaning a higher concentration could make for very hearty soup indeed.

Self-repairing solar cells could also fix our energy dependency originally appeared on Engadget on Tue, 07 Sep 2010 11:42:00 EST. Please see our terms for use of feeds.

Permalink | Email this | Comments]]>alternative energyAlternativeEnergycarbon nanotubeCarbonNanotubemitphoto voltaicPhotoVoltaicpvsolarsolar cellsolar powerSolarCellSolarPowervoltaicTue, 07 Sep 2010 11:42:00 EST<![CDATA[Cornell gurus look to carbon nanotubes for efficient solar cells]]>http://www.engadget.com/2009/09/17/cornell-gurus-look-to-carbon-nanotubes-for-efficient-solar-cells/http://www.engadget.com/2009/09/17/cornell-gurus-look-to-carbon-nanotubes-for-efficient-solar-cells/http://www.engadget.com/2009/09/17/cornell-gurus-look-to-carbon-nanotubes-for-efficient-solar-cells/#comments
You know what we love? Solar-powered gadgets, and carbon nanotubes. Oh, and Ivy League schools. Boffins from Cornell University are now looking to use the multifaceted carbon nanotube instead of silicon to develop efficient solar cells, and judging by the glacial pace at which solar cell efficiency is improving, we'd say the sector could use the boost. The researchers have already fabricated, tested and measured a simple solar cell (called a photodiode, just so you know) that was formed from an individual carbon nanotube. The tube was essentially a rolled-up sheet of graphene, and while the inner workings would take days to explain, the gist of it is this:
"The nanotube may be a nearly ideal photovoltaic cell because it allowed electrons to create more electrons by utilizing the spare energy from the light."
So, solar-powered F-350 trucks are now a possibility for next year, right?

[Via Graphene-Info]

Filed under:

Cornell gurus look to carbon nanotubes for efficient solar cells originally appeared on Engadget on Thu, 17 Sep 2009 22:21:00 EST. Please see our terms for use of feeds.

Read | Permalink | Email this | Comments]]>carbon nanotubeCarbonNanotubecornellcornell universityCornellUniversityeco-friendlyefficiencygraphenenanotubephotodioderesearchsciencesolarsolar powerSolarPoweruniversityThu, 17 Sep 2009 22:21:00 EST<![CDATA[Ultra-tough buckypapers could build planes, trains and automobiles]]>http://www.engadget.com/2008/10/19/ultra-tough-buckypapers-could-build-planes-trains-and-automobil/http://www.engadget.com/2008/10/19/ultra-tough-buckypapers-could-build-planes-trains-and-automobil/http://www.engadget.com/2008/10/19/ultra-tough-buckypapers-could-build-planes-trains-and-automobil/#comments
Not to get too nano-technical on you this Saturday afternoon, but you're probably going to want to be briefed on these newfangled macroscopic aggregates commonly referred to as buckypapers. The devices, which are reportedly involved in a long-term undercover relationship with those buckyballs you discussed in 10th grade chemistry class, are ridiculously tough (albeit lightweight) sheets of matter made from intertwined carbon nanotubes. Put simply, these composites could see uses in making more efficient heat sinks, lighter background illumination material for displays and (at least in theory) transportation of the future. For now, buckypapers are being made exclusively in university laboratories, but Florida State is already in the process of spinning out a firm to make them commercially. Do we see the makings of a new and improved Project Grizzly suit? Our signs are pointing to yes.

[Via Yahoo!]

Filed under: ,

Ultra-tough buckypapers could build planes, trains and automobiles originally appeared on Engadget on Sun, 19 Oct 2008 10:02:00 EST. Please see our terms for use of feeds.

Read | Permalink | Email this | Comments]]>buckypapercarbon nanotubecarbon nanotubesCarbonNanotubeCarbonNanotubesnanotechnologyscienceSun, 19 Oct 2008 10:02:00 EST<![CDATA[UCLA researchers create self-healing, power-generating artificial muscle]]>http://www.engadget.com/2008/03/22/ucla-researchers-create-self-healing-power-generating-artificia/http://www.engadget.com/2008/03/22/ucla-researchers-create-self-healing-power-generating-artificia/http://www.engadget.com/2008/03/22/ucla-researchers-create-self-healing-power-generating-artificia/#comments
We've seen self-healing materials and artificial arms, but a team of researchers hailing from UCLA have taken two fabulous ideas and wed them together to create "an artificial muscle that heals itself and generates electricity." Put simply, the contracting / expanding of the material can generate a small electric current, which can be "captured and used to power another expansion or stored in a battery." The scientists have relied on carbon nanotubes as electrodes rather than metal-based films that typically fail after extended usage, and in an ideal world, the research could eventually lead to (more) walking robots and highly advanced prosthetics. Integrate an AC adapter in there and we're sold.

[Via CNET]

Filed under:

UCLA researchers create self-healing, power-generating artificial muscle originally appeared on Engadget on Sat, 22 Mar 2008 22:58:00 EST. Please see our terms for use of feeds.

Read | Permalink | Email this | Comments]]>Artificial MuscleArtificialMusclecarbon nanotubecarbon nanotubesCarbonNanotubeCarbonNanotubeschargechargerchargingelectricityhealthmedicalmusclenanotubeprostheticsscienceself healingself-healingSelfHealingUCLAuniversitySat, 22 Mar 2008 22:58:00 EST<![CDATA[Researchers get nanotube chips running at commercial speeds]]>http://www.engadget.com/2008/01/31/researchers-get-nanotube-chips-running-at-commercial-speeds/http://www.engadget.com/2008/01/31/researchers-get-nanotube-chips-running-at-commercial-speeds/http://www.engadget.com/2008/01/31/researchers-get-nanotube-chips-running-at-commercial-speeds/#commentsCarbon nanotubes have a ton of promise, and we've seen a lot of prospective applications for the tech, but researchers at Stanford, working with Toshiba, have managed to demonstrate the first use of nanotubes in chips that run at commercially-viable speeds. The chip features 256 ring oscillators and packs over 11,000 transistors in just one hundredth of a square inch. When wired with the nanotubes and powered up, the chip ran at speeds between 800MHz and 1.06GHz -- not desktop speeds, to be sure, but still promising. The team says that while the experiment bodes well for the future, we shouldn't expect any direct applications yet -- but you know we're dreaming of tiny implantable supercomputers anyway.

Filed under:

Researchers get nanotube chips running at commercial speeds originally appeared on Engadget on Thu, 31 Jan 2008 05:43:00 EST. Please see our terms for use of feeds.

Read | Permalink | Email this | Comments]]>carboncarbon nanotubeCarbonNanotubenanotubestanfordtoshibaThu, 31 Jan 2008 05:43:00 EST