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Near-perfect antireflection coating for silicon solar energy utilization Weijian Yang Department of Electrical Engineering and Computer Sciences University.

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Presentation on theme: "Near-perfect antireflection coating for silicon solar energy utilization Weijian Yang Department of Electrical Engineering and Computer Sciences University."— Presentation transcript:

1 Near-perfect antireflection coating for silicon solar energy utilization Weijian Yang Department of Electrical Engineering and Computer Sciences University of California, Berkeley, CA, 94720, USA

2 UC Berkeley2EE 235 Solar Cell Presentation Weijian Yang Mar. 2, 2009 Motivation  AR coating can improve solar collection efficiency.  Solar radiation  Broadband spectrum.  Incident angle changes within a day.  An idea AR coating should maintain a low reflectance for a broadband spectrum and all angles of incidence.

3 UC Berkeley3EE 235 Solar Cell Presentation Weijian Yang Mar. 2, 2009 AR coating  Fresnel reflection  Traditional quarter-wave AR coating suffers from a small range of optical spectrum and incident angle.  Grade index nanorod thin film structure.

4 UC Berkeley4EE 235 Solar Cell Presentation Weijian Yang Mar. 2, 2009 Graded Index  Reflectance of the AR coating depends on smoothness of the index profile.  Minimize the differential reflectance at each interface of the multilayer structure.

5 UC Berkeley5EE 235 Solar Cell Presentation Weijian Yang Mar. 2, 2009 Graded index

6 UC Berkeley6EE 235 Solar Cell Presentation Weijian Yang Mar. 2, 2009 Moth’s eye  Graded effective medium can reduce index mismatch at the interface and eliminate reflection.  Change air/material ratio gradually.

7 UC Berkeley7EE 235 Solar Cell Presentation Weijian Yang Mar. 2, 2009 Oblique-angle deposition  A random growth fluctuation in the substrate produces a shadow region that the subsequent incident vapor flux cannot reach.

8 UC Berkeley8EE 235 Solar Cell Presentation Weijian Yang Mar. 2, 2009 Graded index AR coating

9 UC Berkeley9EE 235 Solar Cell Presentation Weijian Yang Mar. 2, 2009 Comparison StructureAve. ReflectionAve. Transmission Si32.6%67.4% Single layer quarter wavelength 18.8%81.2% Graded index3.79%96.12

10 UC Berkeley10EE 235 Solar Cell Presentation Weijian Yang Mar. 2, 2009 References  M. Kuo, et.al., Opt. Lett., 33, 2527, 2008.  J. Xi, et.al., Nature Photonics, 1, 176, 2007.  J. Xi, et.al., Opt. Lett., 5, 601, 2006.  S. Kennedy, et.al., Appl. Opt., 42, 4573, 2003.  www.physorg.com.

11 UC Berkeley11EE 235 Solar Cell Presentation Weijian Yang Mar. 2, 2009 Thank you!

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