Title :
Broadband nanostructured antireflection coating on glass for photovoltaic applications
Author :
Welser, Roger E. ; Sood, Adam W. ; Pethuraja, Gopal G. ; Sood, Ashok K. ; Yan, Xing ; Poxson, David J. ; Cho, Jaehee ; Schubert, E. Fred ; Harvey, Jennifer L.
Author_Institution :
Magnolia Solar, Inc., Woburn, MA, USA
Abstract :
Ultra-high, omnidirectional transmittance through a coated glass window is demonstrated over the entire accessible portion of the solar spectrum. The average broadband transmittance has been increased to greater than 98.5% at normal incidence, and exceeds 97.8% at all wavelengths between 440 nm and 1800 nm, significantly outperforming conventional MgF2 coated glass. The measured improvement in transmittance results from coating the window with a new class of materials consisting of porous SiO2 nanorods. The step-graded antireflection structure also exhibits excellent omnidirectional performance, enabling average broadband transmittance in excess of 96% at incident angles as high as 70°.
Keywords :
antireflection coatings; glass; nanorods; porous semiconductors; silicon compounds; solar cells; MgF2; SiO2; antireflection structure; broadband nanostructured antireflection coating; broadband transmittance; coated glass window; photovoltaic applications; porous nanorods; ultrahigh omnidirectional transmittance; wavelength 440 nm to 1800 nm; Broadband communication; Coatings; Films; Glass; Refractive index; Substrates; Omni-directional; antireflection coating; broadband; nanostructures; silicon dioxide;
Conference_Titel :
Photovoltaic Specialists Conference (PVSC), 2012 38th IEEE
Conference_Location :
Austin, TX
Print_ISBN :
978-1-4673-0064-3
DOI :
10.1109/PVSC.2012.6318288
