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Bibliography

Angelica, Amara D. "Controlled Atomic-layer Crystal Growth Is 'breakthrough' for Solar-cell Efficiency." Kurzweil - Accelerating Intelligence. KurzweilAINetwork, Oct.-Nov. 2013. Retrieved from <http://www.kurzweilai.net/controlled-atomic-layer-crystal-growth-is-breakthrough-for-solar-cell-efficiency>. Accessed 28 Jan. 2014.

Atkinson, Nancy. "International Space Station Making New Solar Observations." Universe Today 28 Nov. 2012. Retrieved from <http://www.universetoday.com/98673/international-space-station-making-new-solar-observations/> Accessed 28 Mar. 2014.

"Babcock Ranch 100% Solar Powered City." Jetson Green. N.p., n.d. Retrieved from <http://news.medill.northwestern.edu/chicago/news.aspx?id=177716> Accessed 31 Mar. 2014.

Bellis, Mary. "Photovoltaics - Timeline of the History of Photovoltaics." About.com Inventors. About.com, 20 Dec. 2013. Retrieved from <http://inventors.about.com/od/timelines/a/Photovoltaics.htm>. Accessed 23 Jan. 2014.

Burchell, Bernard. "Determining the Electron Structure." Structure and Radius of Electron. Alternativephysics, 2010. Retrieved from <http://www.alternativephysics.org/book/ElectronStructure.htm>. Accessed 28 Jan. 2014.

Dimroth, Frank. "World Record Solar Cell with 44.7% Efficiency -- Fraunhofer ISE." Fraunhoffer, 23 Sept. 2013. Retrieved from <http://www.ise.fraunhofer.de/en/press-and-media/press-releases/presseinformationen-2013/world-record-solar-cell-with-44.7-efficiency>. Accessed 27 Jan. 2014.

Elert, Emily. "Four Engineering Giants Dream Up the Airplane of the Future." Discover Magazine, 29 Dec. 2010. Retrieved from <http://discovermagazine.com/2010/sep/04-engineering-giants-dream-up-future-airplane> Accessed 31 Mar. 2014.

"EIA projects world energy consumption will increase 56% by 2040." US Energy Information Administration, 25 July 2013. Retrieved from <http://www.eia.gov/todayinenergy/detail.cfm?id=12251>. Accessed 31 Mar. 2014.

"55 Interesting Facts About Energy." N.d. Retrieved from <http://facts.randomhistory.com/energy-facts.html>. Accessed 31 Mar. 2014.

Fitlow, Jeff. "New Nanotube Fibers Have Unmatched Combination of Strength, Conductivity, Flexibility (w/ Video)." 10 Jan. 2013. Retrieved from <http://phys.org/news/2013-01-nanotube-fibers-unmatched-combination-strength.html>. Accessed 28 Jan. 2014.

Hickman, Matt. "Go Big Green!" 28 Sep. 2009. Retrieved from <http://www.mnn.com/your-home/remodeling-design/blogs/go-big-green>. Accessed 29 Mar. 2014.

"How Solar Works 2: Bandgaps." SolarjourneyUSA.com, n.d. Retrieved from <http://solarjourneyusa.com/bandgaps.php>. Accessed 27 Mar. 2014.

Kim, Hoon-sik, Eric Brueckner, and John A. Rogers. "Unusual Strategies for Using Indium Gallium Nitride Grown on Silicon (111) for Solid-state Lighting." PNAS, June-July 2011. Retrieved from <http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3121821/>. Accessed 28 Jan. 2014.

Llorens, Dave. "Solar Panel Efficiency and the Factors That Affect It | 1BOG.org." Home Solar 101 A Homeowners Guide to Solar Solar Panel Efficiency and the Factors That Affect It Comments. Pure Energies Group Company, 2012. Retrieved from <http://howsolarworks.1bog.org/solar-panel-efficiency/>. Accessed 28 Jan. 2014.

MacNeill, John. "Ultra-Efficient Solar Power." MIT Technology Review, 13 Apr. 2013. Retrieved from <http://www.technologyreview.com/featuredstory/513671/ultra-efficient-solar-power/>. Accessed 28 Jan. 2014.

Maehulum, Mathias. "Solar Energy Pros and Cons." Energy Informative, 26 June 2013. Retrieved from <http://energyinformative.org/solar-energy-pros-and-cons/>. Accessed 26 Jan. 2014

Maxey, Kyle. "3D Printing Trends, History." Engineering.com Inc., Aug.-Sept. 2013. Retrieved from <http://www.engineering.com/3DPrinting/3DPrintingArticles/ArticleID/6344/3D-Printing-Trends-History.aspx>. Accessed 30 Jan. 2014.

Piccirillo, Clara. "Solar Panel." Decoded Science. Wordpress, 4 Jan. 2013. Retrieved from <http://www.decodedscience.com/the-most-significant-breakthroughs-in-materials-science-for-2012/23680/solar-panel>. Accessed 29 Jan. 2014.

Preuss, P. "A Step Closer to the Optimum Solar Cell." Science Beat. U.S. Deparment of Energy, 24 Mar. 2004. Retrieved from <http://www.lbl.gov/Science-Articles/Archive/sb-MSD-multibandsolar-panels.html>. Accessed 27 Mar. 2014.

Preuss, P. "An unexpected discovery could yield a full spectrum solar cell." Berkeley Lab. U.S. Deparment of Energy, 18 Nov. 2002. Retrieved from <http://www.lbl.gov/Science-Articles/Archive/MSD-full-spectrum-solar-cell.html>. Accessed 27 Mar 2014.

Schwarm, Alex. Senior Product Manager at Applied Materials, Austin, Texas. Personal interview. 4 Mar. 2014.

Seale, Eric. "The Photovoltaic Effect." Creative Commons, 11 July 2003. Retrieved from <http://encyclobeamia.solarbotics.net/articles/photovoltaic.html>. Accessed 23 Jan. 2014.

Solar panels in Ogiinuur.jpg. 6 Aug. 2010. Retrieved from <http://en.wikipedia.org/wiki/File:Solar_panels_in_Ogiinuur.jpg>. Accessed 31 Mar. 2014.

Space.com staff. "Photos: Swiss Robotic Mini-Shuttle Concept Unveiled." 1 Apr. 2013. Retrieved from <http://www.space.com/20450-swiss-robot-rocket-plane-photos.html>. Accessed 30 Mar. 2014.

The Nobel Foundation. "The Nobel Prize in Physics 1921." Nobelprize.org. Nobel Media AB 2013. Retrieved from <http://www.nobelprize.org/nobel_prizes/physics/laureates/1921/> Accessed 28 Jan 2014.

Toothman, Jessika, and Scott Aldous. "How Solar Cells Work." HowStuffWorks.com, 1 Apr. 2000. Retrieved from <http://science.howstuffworks.com/environmental/energy/solar-cell1.htm>. Accessed 26 Jan. 2014.

Whitman, Lloyd. "NSI: Nanotechnology for Solar Energy Collection and Conversion-- Contributing to Energy Solutions for the Future." Nano. United States National Nanotechnology Initiative, n.d. Retrieved from <http://www.nano.gov/node/830>. Accessed 26 Jan. 2014.

Whitwarm, Ryan. "New Nanomaterial Could Boost Solar Panel Efficiency as High as 80 Percent." ExtremeTech. Ziff Davis, 17 Oct. 2013. Retrieved from <http://www.extremetech.com/extreme/168811-new-nano-material-could-boost-solar-panel-efficiency-as-high-as-80>. Accessed 26 Jan. 2014.

Willhite, Roger. "What Happens When Solar Cells Reach Maximum Efficiency?" Second Silicon, May-June 2013. Retrieved from <http://secondsilicon.com/what-happens-when-solar-cells-reach-maximum-efficiency/>. Accessed 29 Jan. 2014.