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Carbon Nanotubes for Solar Energy Group 1  Kevin Andrews  Aaron Loichle  Kyle O’Brien  Eric Prebor.

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Presentation on theme: "Carbon Nanotubes for Solar Energy Group 1  Kevin Andrews  Aaron Loichle  Kyle O’Brien  Eric Prebor."— Presentation transcript:

1 Carbon Nanotubes for Solar Energy Group 1  Kevin Andrews  Aaron Loichle  Kyle O’Brien  Eric Prebor

2 What are Carbon Nanotubes? Carbon Atoms arranged in a hexagonally shape rolled into tubes. Nanotechnology Mechanical and electrical properties. Photosensitive material. Convert light to electricity efficiently. Transmission Electron Microscope.

3 Composition and Antennas Solar Funnels Antennas of fibrous rope of 10 micrometers long and 4 micrometers thick. (millionths of a meter) 30 million carbon nanotubes. Two layers of nanotubes with different bandgaps. Higher bandgap and lower bandgap.

4 How Does it Work?  Carbon nanotubes are combined to make antennas  Concentrate solar energy 100 times more effectively  Boost the number of photons captured

5 How Does it Work?  Two layer fibers  Different electrical properties  Hole and bandgap  High to low energy  Concentration in center of antenna

6 Advantages  One possible application would be to use the carbon nanotubes in new kinds of small electronic devices such as sensors or treatment devices that could be injected into the body.  Even though these nanowires are small, they could be put together to produce a large amount of power for very large devices.

7 Advantages  Also these devices could indefinitely maintain their power. Most batteries will leak away their charge over time if they are not used.  Another theory is that they could change the coating and have it produce an alternating current. That would open up many new possibilities for technology.

8 Disadvantages -The carbon nanotubes themselves are a potential hazard to the environment if they are not carefully monitored -The nanotubes are yet to be optimized, it isn’t clear what arrangement will actually yield the most productivity. -The biggest concern is their similarity to asbestos fibers, as well as their overall untested status.

9 Works Cited Dai, L. (2006). Carbon Nanotechnology: Recent Developments in Chemistry, Physics, Materials Science and Device Applications. Miamisburg, OH, USA: Elsevier Science. El chaar, L., Lamont, L. A., & Elzein, N. (2010). PV Technology - Industry update. Power and Energy Society General Meeting, (pp. 1-6, 25-29). Fiorito, S. (2008). Carbon Nanotubes: Angels or Demons? Chicago, IL, USA: Pan Stanford Publishing. Greenemeier, L. (May 20,2008). Scientific American. Retrieved October 12,2010.from http://www.scientificamerican.com/article.cfm?id=carbon-nanotube-danger. Massachusetts Institute of Technology. (2010, October 10). Funneling solar energy: Antenna made of carbon nanotubes could make photovoltic cells more efficient. Science Daily. MIT researchers discover new way of producing electricity. (2010). Retrieved October 12, 2010 from PhysOrg: http://www.physorg.com/ ​ news187186888.html Vagn, E. H., & Villy, J. M. (2010). Patent No. EP2227633. Denmark.

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