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Optimizing the Nonlinear Optical Response from Nanoantenna Arrays for Frequency Up-Conversion for Solar Cells

$449,999FY2010ENGNSF

University Of Illinois At Urbana-Champaign, Urbana IL

Investigators

Abstract

Objective: The aim of this research is to develop nanoantenna-based frequency up-converter arrays for efficient nonlinear optical response at wavelengths for which silicon has high quantum efficiency. Intellectual merit: This project will facilitate the development of plasmonic nanoantenna arrays that are optimized for ?photon-management? applications, e.g., optical frequency conversion solar cell technology. To-date, little work has been done on optimizing these structures for their nonlinear optical response, which, in general will depend on multiple parameters including material and geometric. In addition, this project offers an opportunity to investigate several, not well-understood, fundamental scientific studies, such as: 1) identifying the origin of the nonlinear optical response; 2) determining the limiting factors that influence the near-field resonance of nanoantennas; and 3) understanding how nanoscale plasmonic enhancement can be precisely coupled to the local nonlinear optical response in solid state materials. Broader impact: This work has the potential to be transformative by helping to revolutionize and fast-track the development of efficient solar cell technology, whereby according to recent estimates, the industry is growing at a rate of ~ 30% per year, with a predicted growth of ~$7.5B by 2015. In addition, the work is expected to broadly impact interdisciplinary science/engineering education by developing a high-school module on plasmonic-enhanced solar cells and photo detectors, incorporating research materials into an undergraduate course on nanotechnology, and providing unique graduate research experience for students from various backgrounds. The work will be broadly disseminated through various academic/industrial channels.

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