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futurity_sci_tech 00725.txt

#Car paint with graphene gets ice off radar domes Rice university rightoriginal Studyposted by Mike Williams-Rice on December 18 2013ribbons of ultrathin graphene combined with polyurethane paint meant for cars can keep ice off of sensitive military radar domes report scientists. The Rice university lab of chemist James Tour in collaboration with Lockheed martin developed the compound to protect marine and airborne radars with a robust coating that is also transparent to radio frequencies. Bulky radar domes (known as adomes like those seen on military ships keep ice and freezing rain from forming directly on antennas. But the domes themselves must also be kept clear of ice that could damage them or make them unstable. This task is accomplished usually with a metal framework that supports and heats ceramic alumina (aluminum oxide) Tour says. But these materials are heavy and metallic elements must be installed far from the source of radio signals to keep from interfering. t s very hard to deice these alumina domestour says. t takes a lot of power to heat them when they re coated with ice because they re very poor conductors. nter graphene the single-atom-thick sheet of carbon that both conducts electricity and because it s so thin allows radio frequencies to pass unhindered. Spray-on deicing material that incorporates graphene nanoribbons would be lighter cheaper and more effective than current methods Tour says. The research appears in the journal Applied materials and Interfaces. his started when (Lockheed martin engineer) Vladimir Volman saw a presentation by Yu Zhu a postdoc in my lab at the timehe says. olman had calculated that one could pass a current through a graphene film less than 100 nanometers thick and get resistive heating that would be great for deicing. Zhu was presenting his technique for spraying nanoribbons films and Volman recognized the potential. ristine graphene transmits electricity ballistically and would not produce enough heat to melt ice or keep it from forming but graphene nanoribbons (GNRS) unzipped from multiwalled carbon nanotubes in a chemical process invented by the Tour group in 2009 do the job nicely he says. When evenly dispersed on a solid object the ribbons overlap and electrons pass from one to the next with just enough resistance to produce heat as a byproduct. The effect can be tuned based on the thickness of the coating Tour says. In initial experiments the team led by Volman and Zhu spray-coated a surface with soluble GNRS. hey said it works great but it comes off on our fingers when we touch ittour says. He found the solution in a Houston auto parts store. bought some polyurethane car paint which is extremely robust. On a car it lasts for years. So when we combined the paint and GNRS and coated our samples it had all the properties we needed. ab samples up to two square feet were assembled using a flexible polymer substrate polyimide which was spray-coated with polyurethane paint and allowed to dry The coated substrate was then put on a hotplate to soften the paint and a thin GNR coat was airbrushed on. When dried the embedded ribbons became impossible to remove. Tour says the researchers have tried also putting GNRS under the polyurethane paint with good results. The 100-nanometer layer of GNRSÂ##thousands of times thinner than a human hairâ##was hooked to platinum electrodes. Using voltage common to shipboard systems the compound was sufficient to deice lab samples cooled to-4 degrees Fahrenheit within minutes. Further experiments found them to be nearly invisible to radio frequencies. Tour says the availability of nanoribbons is no longer an issue now that they re being produced in industrial quantities. ow we re going to the next levelhe says noting that GNR films made into transparent films might be useful for deicing car windshields a project the lab intends to pursue. Volman suggests the material would make a compelling competitor to recently touted nanotube-based aerogels for deicing airplanes in the winter. e have the technology; we have the materialhe says. t s very durable and can be sprayed on to heat any kind of surface. he Lockheed martin Corp. through the LANCER IV program the Air force Office of Scientific research and the Office of Naval Research supported the research. Source: Rice Universit h

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