All-carbon solar cell draws power from near-infrared light, our energy future is literally that much brighter

Fully carbon solar cell can power up from infrared light, our future is literally that much brighter

What's this orange-like patch, you ask? It's a layer of carbon nanotubes on silicon, and it might just be instrumental to getting a lot more power out of solar cells than we're used to. Current solar power largely ignores near-infrared light and wastes about 40 percent of the potential energy it could harness. A mix of carbon nanotubes and buckyballs developed by MIT, however, can catch that near-infrared light without degrading like earlier composites. The all-carbon formula doesn't need to be thickly spread to do its work, and it simply lets visible light through -- it could layer on top of a traditional solar cell to catch many more of the sun's rays. Most of the challenge, as we often see for solar cells, is just a matter of improving the energy conversion rate. Provided the researchers can keep refining the project, we could be looking at a big leap in solar power efficiency with very little extra footprint, something we'd very much like to see on the roof of a hybrid sedan.

All-carbon solar cell draws power from near-infrared light, our energy future is literally that much brighter originally appeared on Engadget on Fri, 22 Jun 2012 05:52:00 EDT. Please see our terms for use of feeds.

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Nanotubes sniff out rotting fruit, your dorm room might be next

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Our favorite ultra-skinny molecules have performed a lot of useful functions over the years, but keeping fruit flies away was never one of them. Now MIT scientists, with US Army funding, have discovered a way to give these nanotubes the canine-like sense of smell needed to stop produce spoilage and waste. Doping sheets of them with copper and polystyrene introduces a speed-trap for electrons, slowing them and allowing the detection of ethylene gas vented during ripening. A sensor produced from such a substance could be combined with an RFID chip, giving grocers a cheaper way to monitor freshness and discount produce before it's too late. If that works, the team may target mold and bacteria detection next, giving you scientific proof that your roommate needs to wash his socks.

Nanotubes sniff out rotting fruit, your dorm room might be next originally appeared on Engadget on Tue, 01 May 2012 02:25:00 EDT. Please see our terms for use of feeds.

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Sensitive scales can weigh individual atoms, ensure perfect recipes

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Those of you who have navigated beyond using an Easy-Bake Oven will know that weighing out ingredients is a chore. Then again, it's nothing compared to the sort of balancing that takes place at the Catalan Institute of Nanotechnology, where a team has developed a method of weighing individual protons. Using heated, shortened carbon nanotubes in a vacuum, the scale vibrates at different frequencies depending on what molecules are balanced on top. The Yoctogram-scale will enable scientists to diagnose health conditions by finding differences in mass, identifying elements in chemical samples that only differ at the atomic level and ensuring you never over-flour your batter mix again.

Sensitive scales can weigh individual atoms, ensure perfect recipes originally appeared on Engadget on Mon, 02 Apr 2012 07:57:00 EDT. Please see our terms for use of feeds.

Permalink io9, New Scientist  |  sourceNature  | Email this | Comments