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that works better than graphene or carbon nanotubes in supercapacitors. In case you haven ;t been following the supercapacitor hype, they ;re devices that store energy in electrical charges rather than chemical reactions, as batteries do. That means supercapacitors can charge and discharge much faster than batteries. The reason you don ;t have a lightning fast supercapacitor in your laptop, though, is because they ;re huge. They ;ve largely been relegated to industrial uses so far, like storing the energy from wind turbines, but scientists are always looking for new ways to ma stanley tumblers ke better supercapacitors. One unexpected source for new supercapacitor material is used cigarette filters, which currently do little but litter our sidewalks and parks. In a study published inNanotechnology, scientists in South Korea report how to treat filters to help make supercapacitors. The material insid stanley cup e cigarette filters is a synthetic fiber called cellulose acetate that, when heated in the presence of nitrogen, turns into a carbon-based material full of pores. The pores contribute to its high surface area, making it good for supercapacitors. When the team tested it for how well it charged and discharged electrons, the stanley canada y found it worked better than commercially available materials鈥攁s well as graphene and carbon nanotubes, as reported in previous studies. Maybe someday soon, the cigarette butts littering your street could be put to much better use. [Nanotechnology viaInstit Lwmy How to Save Maps to Your Phone So You Won t Get Lost, Even Without Data
is embroidered with sensors, resistors, and conductive fabrics making it self-aware. So it knows exactly how it been folded, crumpled, or arranged. Created by the University of Toronto Responsive Architecture at Daniels school, the blanket incorporates 104 fabric tilt sensors designed to look like flowers with the petals made of a stanley quencher conductive material. These are then connected to a larger network using conductive thread forming a large grid of hexagons covering the entire blanket. Which results in a unique pattern that as functional as it is stylish. The individual tilt sensors relay their orientation to a central Arduino-powered computer which is then able to calculate the slopes between the various flowers and pedals on the blanket. Resulting in a 3D representation of its shape no matter how its laid out. So in theory, once the e-blanket technology is refined to the point where the sensors cover every last square inch, turning a physical model into a 3D representation could be as easy as just wrapping it in fabric. Or, monitoring a pa stanley cup tient breathing rate could be done by just tossing a blanket over them. [University of Toronto RAD via Domus] Gadgets stanley france Daily Newsletter
that works better than graphene or carbon nanotubes in supercapacitors. In case you haven ;t been following the supercapacitor hype, they ;re devices that store energy in electrical charges rather than chemical reactions, as batteries do. That means supercapacitors can charge and discharge much faster than batteries. The reason you don ;t have a lightning fast supercapacitor in your laptop, though, is because they ;re huge. They ;ve largely been relegated to industrial uses so far, like storing the energy from wind turbines, but scientists are always looking for new ways to ma stanley tumblers ke better supercapacitors. One unexpected source for new supercapacitor material is used cigarette filters, which currently do little but litter our sidewalks and parks. In a study published inNanotechnology, scientists in South Korea report how to treat filters to help make supercapacitors. The material insid stanley cup e cigarette filters is a synthetic fiber called cellulose acetate that, when heated in the presence of nitrogen, turns into a carbon-based material full of pores. The pores contribute to its high surface area, making it good for supercapacitors. When the team tested it for how well it charged and discharged electrons, the stanley canada y found it worked better than commercially available materials鈥攁s well as graphene and carbon nanotubes, as reported in previous studies. Maybe someday soon, the cigarette butts littering your street could be put to much better use. [Nanotechnology viaInstit Lwmy How to Save Maps to Your Phone So You Won t Get Lost, Even Without Data
is embroidered with sensors, resistors, and conductive fabrics making it self-aware. So it knows exactly how it been folded, crumpled, or arranged. Created by the University of Toronto Responsive Architecture at Daniels school, the blanket incorporates 104 fabric tilt sensors designed to look like flowers with the petals made of a stanley quencher conductive material. These are then connected to a larger network using conductive thread forming a large grid of hexagons covering the entire blanket. Which results in a unique pattern that as functional as it is stylish. The individual tilt sensors relay their orientation to a central Arduino-powered computer which is then able to calculate the slopes between the various flowers and pedals on the blanket. Resulting in a 3D representation of its shape no matter how its laid out. So in theory, once the e-blanket technology is refined to the point where the sensors cover every last square inch, turning a physical model into a 3D representation could be as easy as just wrapping it in fabric. Or, monitoring a pa stanley cup tient breathing rate could be done by just tossing a blanket over them. [University of Toronto RAD via Domus] Gadgets stanley france Daily Newsletter