Nanotechnology

Boosting Nanowires for Better Batteries and Solar Cells

Stanford University engineers have found a novel method for "decorating" nanowires with chains of tiny particles to increase their electrical and catalytic performance. The technique is simpler and faster than earlier methods and could lead to better lithium-ion batteries, more efficient thin-film solar cells, and improved catalysts that yield new synthetic fuels.

Posted in: News, News, Batteries, Energy Storage, Renewable Energy, Solar Power, Alternative Fuels, Nanotechnology

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Nanotrees Turn Sunshine into Hydrogen Fuel

University of California, San Diego electrical engineers are building a forest of tiny nanowire trees in order to cleanly capture solar energy and harvest it for hydrogen fuel generation. Nanowires, which are made from abundant natural materials like silicon and zinc oxide, offer a cheap way to deliver hydrogen fuel on a mass scale.

Posted in: News, News, Energy Harvesting, Renewable Energy, Solar Power, Alternative Fuels, Greenhouse Gases, Nanotechnology

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Measuring Techniques Improve Efficiency & Safety of Nanoparticles

Using high-precision microscopy and X-ray scattering techniques, University of Oregon researchers have gained new insights into the process of applying green chemistry to nanotechnology - resulting in high yields, improved efficiency, and a dramatic reduction of waste and potential negative exposure to human health or the environment.

Posted in: News, News, Energy Efficiency, Green Design & Manufacturing, Smart Grid, Imaging, Nanotechnology

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Device Uses Temperature Differences to Create Electrical Charge

Power Felt is a new thermoelectric device developed by researchers at the Center for Nanotechnology and Molecular Materials at Wake Forest University. By touching a small piece, body heat is converted into an electrical current.

Posted in: News, News, Batteries, Power Management, Energy Harvesting, Thermoelectrics, Materials, Nanotechnology

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Welding Nanowires With Light

Electrically conductive meshes made of metal nanowires promise exceptional electrical throughput, low cost, and easy processing in applications like video displays, LEDs, and thin-film solar cells. However, in processing, these meshes must be heated or pressed to unite the crisscross pattern of nanowires that form the mesh - damaging them in the process.

Posted in: News, News, Energy Efficiency, Renewable Energy, Solar Power, LEDs, Lighting, Materials, Nanotechnology

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Die Extrusion Technology for Medical Tubing Applications

Patent-pending process would allow 1000-plus layers from a single extruder.Although the concept of nanotechnology (controlling matter on an atomic scale) dates back to 1959, it is only now becoming more commercially realized. It has the potential to challenge the way all products are extruded in almost every type of medical tubular or related industrial product applications.

Posted in: Briefs, MDB, Briefs, Contract Services, Custom & Contract Manufacturing, Manufacturing & Prototyping, Materials, Bio-Medical, Medical, Nanotechnology

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